THE INVESTIGATION OF THE WORLD TRADE CENTER COLLAPSE:
24–133PS
2006
THE INVESTIGATION OF THE WORLD TRADE
CENTER COLLAPSE: FINDINGS,
RECOMMENDATIONS, AND NEXT STEPS
HEARING
BEFORE THE
COMMITTEE ON SCIENCE
HOUSE OF REPRESENTATIVES
ONE HUNDRED NINTH CONGRESS
FIRST SESSION
OCTOBER 26, 2005
Serial No. 109–28
Printed for the use of the Committee on Science
Available via the World Wide Web: http://www.house.gov/science
COMMITTEE ON SCIENCE
HON. SHERWOOD L. BOEHLERT, New York, Chairman
RALPH M. HALL, Texas
LAMAR S. SMITH, Texas
CURT WELDON, Pennsylvania
DANA ROHRABACHER, California
KEN CALVERT, California
ROSCOE G. BARTLETT, Maryland
VERNON J. EHLERS, Michigan
GIL GUTKNECHT, Minnesota
FRANK D. LUCAS, Oklahoma
JUDY BIGGERT, Illinois
WAYNE T. GILCHREST, Maryland
W. TODD AKIN, Missouri
TIMOTHY V. JOHNSON, Illinois
J. RANDY FORBES, Virginia
JO BONNER, Alabama
TOM FEENEY, Florida
BOB INGLIS, South Carolina
DAVE G. REICHERT, Washington
MICHAEL E. SODREL, Indiana
JOHN J.H. ”JOE” SCHWARZ, Michigan
MICHAEL T. MCCAUL, Texas
VACANCY
VACANCY
BART GORDON, Tennessee
JERRY F. COSTELLO, Illinois
EDDIE BERNICE JOHNSON, Texas
LYNN C. WOOLSEY, California
DARLENE HOOLEY, Oregon
MARK UDALL, Colorado
DAVID WU, Oregon
MICHAEL M. HONDA, California
BRAD MILLER, North Carolina
LINCOLN DAVIS, Tennessee
RUSS CARNAHAN, Missouri
DANIEL LIPINSKI, Illinois
SHEILA JACKSON LEE, Texas
BRAD SHERMAN, California
BRIAN BAIRD, Washington
JIM MATHESON, Utah
JIM COSTA, California
AL GREEN, Texas
CHARLIE MELANCON, Louisiana
DENNIS MOORE, Kansas
C O N T E N T S
October 26, 2005
Witness List
Hearing Charter
Opening Statements
Statement by Representative Sherwood L. Boehlert,
Chairman, Committee on Science, U.S. House of Representatives
Written Statement
Statement by Representative Brad Miller, Member,
Committee on Science, U.S. House of Representatives
Written Statement
Statement by Representative Vernon J. Ehlers, Chairman,
Subcommittee on Environment, Technology, and Standards, Committee on Science,
U.S. House of Representatives
Written Statement
Prepared Statement by Representative Jerry F. Costello,
Member, Committee on Science, U.S. House of Representatives
Prepared Statement by Representative Eddie Bernice
Johnson, Member, Committee on Science, U.S. House of Representatives
Prepared Statement by Representative Russ Carnahan,
Member, Committee on Science, U.S. House of Representatives
Prepared Statement by Representative Sheila Jackson
Lee, Member, Committee on Science, U.S. House of Representatives
Prepared Statement by Representative Dennis Moore,
Member, Committee on Science, U.S. House of Representatives
Panel I:
Ms. Sally Regenhard, Chairperson, Skyscraper Safety Campaign
Oral Statement
Written Statement
Panel II:
Dr. William Jeffrey, Director, National Institute of Standards and Technology
(NIST)
Oral Statement
Written Statement
Biography
Ms. Nancy McNabb, Director, Government Affairs, National Fire Protection
Association
Oral Statement
Written Statement
Biography
Dr. James R. Harris, President, J.R. Harris and Company; Member, American
Society of Civil Engineers
Oral Statement
Written Statement
Biography
Mr. Glenn Corbett, Assistant Professor of Fire Science, John Jay College of
Criminal Justice; Member, NIST National Construction Safety Team Advisory Board
Oral Statement
Written Statement
Biography
Mr. Henry L. Green, President, International Code Council
Oral Statement
Written Statement
Biography
Discussion
Appendix 1: Answers to Post-Hearing Questions
Dr. William Jeffrey, Director, National Institute of
Standards and Technology (NIST)
Ms. Nancy McNabb, Director, Government Affairs,
National Fire Protection Association
Dr. James R. Harris, President, J.R. Harris and
Company; Member, American Society of Civil Engineers
Mr. Glenn Corbett, Assistant Professor of Fire Science,
John Jay College of Criminal Justice; Member, NIST National Construction Safety
Team Advisory Board
Mr. Henry L. Green, President, International Code Council
Appendix 2: Additional Material for the Record
Statement by The American Institute of Architects
Letter to Chairman Boehlert from James A. Thomas,
President, ASTM International, dated January 11, 2006
An Analysis of the NIST Report on the Collapse of
the World Trade Center Towers for potential recommendations and impacts on ASTM
standards, prepared on behalf of ASTM International by Vytenis Babrauskas,
Fire Science and Technology Inc.
Letter to Chairman Boehlert from Ron Burton, Vice
President for Advocacy and Research, Building Owners and Managers Association
International (BOMA), dated October 26, 2005
BOMA Comments on NIST Recommendations Contained in the
Report on the WTC Disaster
Statement by James G. Quintiere, Professor, Department
of Fire Protection Engineering, University of Maryland
Statement by Jake Pauls, CPE, Consulting Services in
Building Use and Safety, dated October 26, 2005
Fireproofing Blown Off Twin Towers, article by
Michelle Garcia, The Washington Post, Wednesday, April 6, 2005
Staircases in Twin Towers Are Faulted, article
by Jim Dwyer, The New York Times, April 6, 2005
3-Year Federal Study of 9/11 Urges Rules for Safer
Towers, article by Jim Dwyer and Eric Lipton, The New York Times, Wednesday,
June 22, 2005
9/11 Firefighters Told of Isolation Amid Disaster, article
by Jim Dwyer and Michelle O’Donnell, The New York Times, September 9,
2005
BUILDING SAFETY: Directing the Herd: Crowds and the
Science of Evacuation, article by John Bohannon, Science, October
14, 2005
THE INVESTIGATION OF THE WORLD TRADE CENTER COLLAPSE: FINDINGS,
RECOMMENDATIONS, AND NEXT STEPS
WEDNESDAY, OCTOBER 26, 2005
House of Representatives,
Committee on Science,
Washington, DC.
The Committee met, pursuant to call, at 11:09 a.m., in
Room 2318 of the Rayburn House Office Building, Hon. Sherwood Boehlert
[Chairman] presiding.
24133a.eps
HEARING CHARTER
COMMITTEE ON SCIENCE
U.S. HOUSE OF REPRESENTATIVES
The Investigation of the World Trade
Center Collapse: Findings,
Recommendations, and Next Steps
WEDNESDAY, OCTOBER 26, 2005
11:00 A.M.–1:00 P.M.
2318 RAYBURN HOUSE OFFICE BUILDING
Purpose
On October 26, 2005, at 11 a.m., the House Committee on
Science will hold a hearing on the key findings and recommendations of the
National Institute of Standard and Technology’s (NIST) investigation into the
collapse of the World Trade Center (WTC), how building and fire code organizations
plan to implement the recommendations contained in that report, and what
barriers exist to the development and adoption of stronger building and fire
codes.
Witnesses
The following witnesses will address the Committee:
Panel I:
Ms. Sally Regenhard, Skyscraper Safety Campaign (SSC), New York, NY. The
SSC represents families and survivors of the WTC disaster and supports stronger
codes and practices for buildings and first responders.
Panel II:
Dr. William Jeffrey, Director, National Institute of Standards and
Technology.
Ms. Nancy McNabb, Director of Government Affairs, National Fire Protection
Association (NFPA). NFPA standards are extensively referenced in the NIST
recommendations on the WTC collapse.
Dr. James R. Harris, American Society of Civil Engineers (ASCE). ASCE
standards are extensively referenced in the NIST recommendations on the WTC
collapse.
Mr. Henry L. Green, President, International Code Council (ICC). The ICC
is an association of State and local code officials, building mangers, and
other parties that collectively maintain the International Building Code (IBC),
the most widely used model building code in the U.S. Many of NIST’s
recommendations reference the IBC.
Mr. Glenn Corbett, Assistant Professor of Fire Science, John Jay College
of Criminal Justice, New York, NY. Mr. Corbett is a member of NIST’s National
Construction Safety Team Advisory Board.
Overarching Questions
The hearing will address the following overarching
questions:
1. What are the most important findings and recommendations of the World
Trade Center Investigation report?
2. Are the NIST recommendations framed appropriately so that they can be
adopted into national model building codes?
3. What are the prospects for the adoption of the recommendations by the
code organizations? What is NIST doing to promote this process? What are the
possible impediments to their adoption?
4. What lessons were learned from this investigation that could be applied
to improve future investigations of building failures?
Background
On September 11, 2001, terrorists crashed two
fuel-laden Boeing 767s into World Trade Center (WTC) Tower 1 and Tower 2. While
both 110-story buildings withstood the initial impact, the subsequent fires
weakened the already damaged columns at the periphery and core of the towers,
both of which collapsed. More than 25,000 people were safely evacuated from the
towers, however 2,749 people were killed in the disaster. World Trade Center 7,
a 47-story office building located adjacent to WTC 1 and 2, was damaged during
the disaster and collapsed later that same day.
Immediately following the attack, the Federal Emergency
Management Agency (FEMA) and the American Society of Civil Engineers (ASCE)
began planning a building performance study of the WTC. The week of October 7,
as soon as the rescue and search efforts ceased, an ASCE team under contract
with FEMA known as the Building Performance Assessment Team (BPAT) went to the
site and began their assessment of why the buildings had failed. This was to be
a brief effort, as the study team consisted of experts who generally had
volunteered their time. In January 2002, FEMA asked the National Institute of
Standards and Technology (NIST) to take over the next phase of the
investigation of the collapse essentially to build upon the BPAT
recommendations and conduct a more thorough investigation of the events leading
to the collapse.
The Science Committee held two hearings in 2002 on the
WTC collapse, one on March 6 and the other on May 1. The March 6, 2002, hearing
focused on how the Federal Government investigates catastrophic building
failures, and what had been learned from the collapse of the WTC 1, 2 and 7.
Concerns raised at the hearing included the lack of any specific federal
authority, protocols, or funding for investigations of this kind. Concerns were
also raised regarding the timing of the BPAT deployment (almost a month after
the towers fell), its access to the site and building records, premature
disposal of evidence, and FEMA’s lack of regular communication with the public
about the investigation.
The BPAT released its report at the May 2002 hearing.
The hearing also reviewed plans for NIST to begin a more comprehensive
investigation in view of the criticisms of FEMA, and provided a forum to
discuss proposed legislation to give NIST the authorities necessary to conduct
such an investigation. The BPAT report highlighted potential reasons for why
the two towers, almost identical in design, performed differently under the
stresses of the disaster. It also identified critical features that enabled so
many to evacuate, and the design elements that may have played a role in the
collapse and prevented people above the impacts from being able to exit the
buildings. However, witnesses commented that, without a more sophisticated
analysis of the evidence, no conclusions could be drawn that could be used to
recommend improvements in building and fire codes to prevent future loss of
life.
Also at the May 2002 hearing, the witnesses commented
favorably on draft legislation being prepared by the Science Committee, based
on the authorizing legislation for the National Transportation Safety Board
(NTSB) to enhance NIST’s existing authority to investigate building failures.
On May 9, 2002, the National Construction Safety Team Act (NCST—H.R.
4687) was introduced by Congressman Sherwood Boehlert and Congressman Anthony
Weiner. The NCST was signed into law on October 1, 2002. Under the Act, NIST is
authorized to appoint a national construction safety team to determine the
causes of a building’s failure, evaluate the technical aspects of evacuation
and emergency response, and ”recommend, as necessary, specific improvements to
building standards, codes, and practices based on the findings,” and propose
any research needed to improve building safety and emergency response
procedures.” The law gives NIST subpoena power to ensure that it has access to
all evidence to support an investigation, but the results of such
investigations cannot be used as evidence in any subsequent litigation.
On August 21, 2002, NIST announced the appointment of a
national construction safety team to investigate building and fire safety in
WTC 1, 2, and 7. The project was funded through FEMA, and cost $16 million.
Building and Fire Codes
Building and fire codes are established and enforced by
State and local governments, which generally base their codes on national model
codes that are written by private non-profit standards development
organizations (SDOs). These organizations are generally are made up of
members—individuals and groups—that have an interest in construction. Generally
make their money through membership payments and selling their codes.
Building and fire codes and standards are technical
descriptions of constructions, materials, installations, equipment, or
practices designed to achieve specific results, such as safety or strength.
Standards are very specific guidelines that describe single elements of
construction or safety. For example, a ”fire rating” is a standard that
describes the amount of time a construction element such as a beam can be
exposed to a typical fire before it breaks or fails. Other examples of building
standards include hallway or stairwell widths deemed necessary to evacuate a
certain number of people in a certain amount of time, or the type of steel
needed for a beam to support a certain amount of weight. NIST does not write
building or fire codes, but does participate in the discussions and provides
technical guidance to the standards development organizations.
The most widely-used model building code in the U.S. is
the International Building Code (IBC). It is currently the basis of the codes
in 45 states and the District of Columbia. The IBC is developed and owned by
the International Code Council (ICC). The ICC’s members consist of State and
local building code officials, building owners and managers, and private sector
participants from construction and other industries. ICC’s members are
concerned with safety, but also with cost and other economic considerations,
and these are reflected in the outcomes of the code meetings. The IBC is
regularly updated in a deliberative, committee-driven process that takes about
eighteen months. The deadline for submitting proposed changes to the IBC, which
begins the next eighteen-month cycle, is March 24th, 2006.
The National Fire Protection Association (NFPA), which
develops many standards related to fire safety, recently produced an
alternative model building code, NFPA 5000. Experts say that implementing NFPA
5000 may be more expensive than the IBC but may result in a greater level of
safety. NFPA’s membership is different from that of the ICC, with strong
representation by fire protection officials and fire equipment manufacturers.
NFPA 5000 has not been widely adopted, but individual NFPA standards are widely
used in fire codes.
The NIST Investigation
NIST’s Building and Fire Research Laboratory (BFRL)
carries out research in fire science, fire safety, structural, mechanical, and
environmental engineering. It is the only federal laboratory dedicated to
research on building design and fire safety.
The goals of the NIST WTC investigation of the WTC
disaster were to investigate the building construction, the materials used, and
the technical conditions that contributed to the outcome of the WTC disaster to
serve as the basis for:
Improvements in the way buildings are designed, constructed, maintained,
and used;
Improved tools and guidance for industry and safety officials for safer
buildings and better coordination in emergencies;
Recommended revisions to current building codes, standards, and
practices, and
Improved public safety.
The specific objectives were to:
1) Determine why and how WTC 1 and WTC 2 collapsed following the initial
impacts of the aircraft;
2) Determine why the injuries and fatalities were so high or low depending
on location, including all technical aspects of fire protection, occupant
behavior, evacuation, and emergency response;
3) Assess what procedures and practices were used in the design,
construction, operation, and maintenance of WTC 1, 2; and
4) Identify areas in current building and fire codes, standards, and
practices that warrant revision.
To meet these goals, NIST assembled a team of in-house
experts and outside specialists, totaling about 200 people. The team compiled
and reviewed tens of thousands of documents, photographs, and films,
interviewed over a thousand people who had been on the scene or who had been
involved with the design, construction, and maintenance of the WTC; analyzed
236 pieces of steel taken from the wreckage; performed laboratory tests, and performed
computer simulations of the sequence of events that happened from the instant
of the aircraft impact to the initiation of collapse for each tower. In
addition, NIST held several public meetings in New York City to report on the
status of the investigation and solicit comments and additional information
that might further the investigation.
In September, 2005, NIST released its draft Final
Report of the National Construction Safety Team on the Collapse of the World
Trade Center Towers for public comment. A copy of the executive summary of
the report is attached. This report summarizes the findings of the
investigation and includes thirty recommendations to improve the safety of tall
buildings, occupants, and emergency responders. NIST will publish its final
report within the next two weeks.
NIST Findings
The NIST investigation confirmed and expanded upon
several of the findings by the initial FEMA BPAT study. When built, WTC 1 and
WTC 2 were unlike any other skyscrapers in existence at the time, both in terms
of their height and innovative structural features. These consisted of a
”frame-tube” system of exterior columns on the four faces of the towers,
linked to a core of columns by light-weight trusses that supported the floors.
In spite of their innovative design, WTC 1 and 2 met or exceeded the
requirements of the New York City building codes.
The NIST investigation determined that although the
aircraft did considerable damage to the principal structural components of WTC
1 and 2, the towers were inherently robust, and would have remained standing
were it not for the dislodged fireproofing which exposed the central columns to
the multi-floor fires. In each tower, a different combination of impact damage
and heat-weakened structural components contributed to the abrupt structural
collapse. The fire safety systems in WTC 1 and 2 met or exceeded current
practice at the time the towers fell, but played no safety role on September
11th because the water supplies and electrical systems were damaged by the
aircraft impact. In WTC 1, the aircraft destroyed all escape routes, and 1,355
people were trapped in the upper floors when the building collapsed. In WTC 2
where evacuation had already commenced, about 3,000 got below the impact zone
before the second plane crashed. One stairwell remained passable for a short
period of time and eighteen people evacuated through the impact zone. The remaining
619 people perished. WTC 2 collapsed before WTC 1 because the aircraft did
significantly more damage to the central columns and the fires were
concentrated on the East side of the building, rather than moving around as
they did in WTC 1.
Major Issues Addressed in the NIST WTC Recommendations
NIST’s recommendations fall into eight groups:
Increased Structural Integrity,
Enhanced Fire Resistance of Structures
New Methods for Fire Resistance Design of Structures
Improved Active Fire Protection
Improved Building Evacuation
Improved Emergency Response
Improved Procedures and Practices, and Education and Training.
These recommendations include many references to
specific SDOs to modify or, in some cases, completely overhaul those standards
that apply to building construction, evacuation, testing, and fire safety.
NIST’s recommendations also refer to less specific audiences such as building
managers, building occupants, property developers, and first responders to
develop procedures and best practices to protect building occupants.
The
following highlights some of the key issues referenced by NIST in its
recommendations:
Increased Structural Integrity
The NIST investigators found that the existing methods
of calculating the effect of wind and other stressors on tall towers produced
markedly different results among the different tests, leading them to question
whether these tests had a basis in fact and needed to be re-designed. NIST’s
report also focuses on the concept of ”progressive collapse,” where the
weakening of one structural element contributes to the weakening of others.
NIST raises the question of whether the current practice of testing individual
building components such as columns and floor trusses gives an accurate
estimate of the resilience of an entire building assembly to fire, wind, and
other stressors. NIST recommends that a ”structural frame” approach to fire
resistance ratings be developed by the structural standards groups such as
ASCE. However, progressive collapse is not well understood, and it may take
time for these groups to produce a standard and describe the appropriate tests
against which to judge whether structures are prone to progressive collapse.
The recommendations pertaining to structural integrity
and design are directed largely at ASCE–7, and specifications developed by the
American Concrete Institute (ACI) and the American Institute of Steel
Construction (AISC), as well as NFPA, and urge that the latest version of these
standards and specifications be adopted by the ICC and NFPA into their model
building codes.
Improved Fire Resistance of Structures and Fire Protection
Over the years, across the United States, there has
been a gradual reduction in rigor of building codes of fire rating
requirements, i.e., how long something such as a steel column can remain
exposed to a fire before breaking or deforming. There has also been a decrease
in the compartmentalizing requirements for working and living spaces. Large
compartments in buildings allow more air to flow to fires and allow fires to
spread faster. Large compartments, however, means more floor area, more
tenants, and more rent for the building owner. A lower fire rating requirement
allows the use of lighter and less material in construction. The loosening of
these restrictions has been compensated for by increasing requirements for
sprinkler systems, which have been shown to be effective in quenching typical
office fires. On September 11th however, the sprinkler systems were disabled,
and even in typical fires, sprinkler systems do not always work. NIST
recommends greater redundancy in sprinkler systems, and more
compartmentalization to restrict air flow to fires. These recommendations apply
to several standards developed by NFPA.
The reduction in fire ratings has also been compensated
by the use of spray-applied fire resistive materials (SFRM) on structural
components. This was the foam that was applied to the columns and trusses of
WTC 1 and 2 as fireproofing. After the 1993 WTC terrorist bombing, it was
recommended that the spray-on fire protection on the steel components of the
towers be thickened. NIST emphasizes that, were it not for the dislodging of
the fireproofing from the structural steel when the aircraft flew into the
towers, WTC 1 and 2 would likely have withstood the subsequent fires. The foam
on WTC 1 and 2 was shaken or blown off around the cores and peripheral columns
on several floors in both Towers on September 11th, meaning the columns reached
critical temperatures much faster then they would have normally. NIST
recommends that the performance of this type of fireproofing needs to be better
understood, particularly its response to shock, aging, and method of
application, and new coatings should be developed.
NIST notes in its report that both the IBC and NFPA
5000 model building codes have since changed their fire rating requirements for
buildings over 420 feet from two hours to four. The report also says, however,
that the technical basis for fire ratings is not strong, particularly since the
typical contents of offices, and construction materials, have changed in the
last 100 years. NIST recommends a comprehensive review by all fire-related SDOs
of fire testing procedures to ensure that fire ratings are meaningful.
Structural fire resistance is closely tied to the outcomes of work on the
structural frame approach for large buildings, which NIST advocates in its
report while recommending an extensive re-evaluation by national building code
committees (ICC and NFPA) of the dynamics of fire, evacuation, and emergency
response for skyscrapers to determine what fire ratings are needed for tall
buildings. In the case of re-evaluating the tests steel and concrete
assemblies, this could be an expensive proposition. A typical full-scale fire
test costs $30,000 or more per test, and to validate a new test, experimental
tests must to be run several times. It is not clear who should be conducting
these tests.
Full Evacuation of Large Buildings
After the 1993 terrorist bombing of the WTC site, it
took four hours to evacuate everyone from WTC 1 and WTC 2. The standard
evacuation plan for skyscrapers does not usually anticipate such a mass egress:
fire-related evacuation plans assume that occupants ”evacuate in place” to higher
and lower floors while first responders fight the fire. Although this approach
may change as a result of the events of September 11th, it may still be the
most practical and safe procedure for typical skyscraper fires. Skyscraper
elevators in the U.S. are not generally fireproof, nor are they intended to be
used for mass evacuation. Full evacuation via stairwells takes a long time. On
September 11th, with all elevators out of commission, it would have taken hours
for firefighters to ascend to the affected floors to fight the fires, or assist
survivors down the stairs. This fact has provoked some re-thinking of how
elevators should be designed and used for emergency purposes.
WTC 1 and 2 had three stairwells each, centered at the
core of the buildings. When the aircraft crashed, these stairs were destroyed.
The NIST investigation found that about six percent of the people in the towers
had health problems or disabilities that made taking the stairs difficult.
Overall, it was found, people evacuate buildings twice as slowly as generally
thought. NIST recommends structural hardening of elevators for use in
large-scale emergencies, and that stairwells be spaced further apart, although
it does not say by how much. NIST also recommends that stairwells should be
widened to allow more people to descend as well as to allow counter flow from
first responders going up the stairs. Most of the recommendations apply to NFPA
101, and the National Model Building and Fire Codes of the ICC.
Communications and Emergency Response
For the approximately 1,000 emergency responders on the
site on September 11th, this was the largest disaster they had ever
experienced. Communications networks at the site were destroyed, and portable
communications devices such as walkie-talkies and cellular phones were
overwhelmed as dozens of first responders attempted to talk at the same time.
Walkie-talkies performed inadequately, or otherwise failed to function inside
the steel-concrete construction of the towers. There was no inter-operability
between the New York Police Department and the New York Fire Department
equipment. Although there had been significant upgrades to the fire monitoring
and communications infrastructure in the WTC Complex after the 1993 terrorist
bombing, incident command centers established inside the two towers by first
responders were still unable to provide a sufficient assessment of the
situation, or monitor and relay information to other first responders at the
site for proper coordination of their activities. First responders commented
later that viewers watching the disaster on television had a better grasp of
the scope and nature of the crisis than did anyone at the WTC site.
NIST’s recommendations on improved emergency response
apply mostly to NFPA standards, but also extend to the Department of Homeland
Security, and state and local jurisdictions, and first responders. NIST emphasizes
that systems need to be effective for large-scale emergencies and able to
function in ”challenging radio frequency environments.” NIST also states that
better procedures are needed for integrating information from multiple sources
and coordinating a unified response among different agencies and departments.
Additional Issues
Follow-up funding is limited
In many instances, NIST has recommended research and
testing to determine whether and how changes in building codes should be made.
It is not clear this effort will receive the commitment for funding it
requires. In order to implement many of NIST’s recommendations, a lot of
research and collaboration with SDOs and stakeholders will have to be done to
provide a scientific and technical basis for the standards changes needed to
meet those recommendations. NIST requested $2 million in additional funds for
FY 2006 for codes and practices for buildings and first responders, but the FY
2006 appropriation has not yet been finalized. If adequate funding for NIST’s
research efforts is not provided, it is unclear what progress will be made on
implementing those recommendations that need scientific research to be
implemented.
Future building investigations
It is unclear what role NIST will play in investigating
future building failures. FEMA received heavy criticism at the Science
Committee hearing March 6, 2002, for shortcomings in the way in which it
conducted the investigation of the collapse of the World Trade Center. The
passage of the National Construction Safety Team Act was supposed to
address these shortcomings by creating the authority to investigate building
failures at NIST and providing NIST with subpoena power to obtain whatever
evidence it needed to complete investigations. However, in the years since
September 11th, although several building failures have occurred, Hurricane
Katrina being the most recent event causing structural failures, NIST has not
invoked the NSTC Act to launch investigations, but rather has been called in
under another agency: FEMA in the case of Katrina. NIST does not have a source
of funding dedicated to pay for such activities and is apparently reluctant to
act independently. Outside observers note that NIST is a research institution
and may not be culturally suited to conduct investigations as does the NTSB,
upon which the NCST Act was based, or the Chemical Safety and Hazards
Investigation Board.
Questions for the Witnesses
Ms. Sally Regenhard, Skyscraper Safety Campaign
I invite you to open the hearing with a five-minute
statement that outlines the views of the Skyscraper Safety Campaign on the
investigation, its findings and the next steps that should be taken.
Dr. William Jeffrey, Director, National Institute of Standards and Technology
In your testimony, please briefly describe the most
important findings and recommendations of the NIST investigation of the World
Trade Center collapse and answer the following questions:
1) What specific steps is NIST taking to ensure that its recommendations
are incorporated into model and local codes? What barriers has NIST confronted
or does it expect to confront as part of that process and how do you plan to
overcome those barriers? What past successes can NIST draw on as part of this
effort?
2) Some experts have criticized the recommendations—some arguing that they
are too general and therefore hard to translate into codes, and others arguing
that they are too detailed and will needlessly increase building costs. How do
you respond to these criticisms?
3) What lessons have you learned in carrying out this investigation that
could be applied to future investigations, including the ones being undertaken
in the wake of Hurricane Katrina?
Ms. Nancy McNabb, Director of Government Affairs, National Fire Protection
Association (NFPA)
In your testimony, please briefly describe the process
by which NFPA writes codes and answer the following questions:
1) Does NFPA support the recommendations of the NIST study? Why or why
not?
2) What specific steps will NFPA be undertaking to determine whether and
how to incorporate the NIST recommendations into its codes? How long should
that process take? What will be the greatest barriers in the process?
3) What specific actions should NIST be taking to help code organizations
incorporate its recommendations? Are the recommendations framed in a way that
facilitates their adoption by code organizations or are they too general or too
specific?
Dr. James R. Harris, American Society of Civil Engineers (ASCE)
In your testimony, please briefly describe the process
by which ASCE writes codes and answer the following questions:
1) Does ASCE support the recommendations of the NIST study? Why or why
not?
2) What specific steps will ASCE be undertaking to determine whether and
how to incorporate the NIST recommendations into its codes? How long should
that process take? What will be the greatest barriers in the process?
3) What specific actions should NIST be taking to help code organizations
incorporate its recommendations? Are the recommendations framed in a way that
facilitates their adoption by code organizations or are they too general or too
specific?
Mr. Henry L. Green, President, International Code Council (ICC)
In your testimony, please briefly describe the process
by which ICC writes codes and answer the following questions:
1) Does ICC support the recommendations of the NIST study? Why or why not?
2) What specific steps will ICC be undertaking to determine whether and
how to incorporate the NIST recommendations into its codes? How long should
that process take? What will be the greatest barriers in the process?
3) What specific actions should NIST be taking to help code organizations
incorporate its recommendations? Are the recommendations framed in a way that
facilitates their adoption by code organizations or are they too general or too
specific?
Mr. Glenn Corbett, Assistant Professor of Fire Science, John Jay College of
Criminal Justice, New York, NY
1) What are the most important findings and recommendations of the NIST
World Trade Center Investigation report?
2) Some experts have criticized the recommendations—some arguing that they
are too general and therefore hard to translate into codes, and others arguing
that they are too detailed and will needlessly increase building costs. What is
your view of these criticisms?
3) What are the prospects for the adoption of the recommendations by the
code organizations? What should NIST and the code and standards groups be doing
to promote this process?
4) What lessons were learned from this investigation that could be applied
to improve future investigations of building failures?
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Chairman BOEHLERT. Good morning. This hearing is
open, and we are pleased to welcome back one who strayed from the fold, Mr.
Weiner of New York, who was a very valued Member of this committee, and has
gone onto other pursuits, but still, fortunately, within the Congress of the
United States. Mr. Weiner, welcome back.
I want to welcome everyone to this important hearing,
the Committee’s third on the tragic collapse of the World Trade Center. But it
won’t be our last. I want to promise and perhaps warn everyone at the outset
that this committee will be closely monitoring the followup to the National
Institute of Standards and Technology report on the events of September 11.
That means we will be watching what NIST does, what
other federal agencies do, and what the code writing organizations do. We are
obviously not technical experts, but we will be making sure that their
recommendations are considered fully and thoroughly, that NIST is doing
everything necessary to back up those recommendations, and that any decisions are
fully justified by the facts.
The issues raised in NIST’s report go far beyond a
single horrific terrorist incident, and indeed, beyond terrorism as a
phenomenon. The report raises fundamental questions about what we know about
the behavior of buildings and their contents, what we know about the behavior
of individuals in emergencies, and about whether buildings are well enough
designed for any large emergency. This is not about making every building
strong enough to survive a plane crash.
That said, NIST’s conclusion that the Trade Center
buildings could have survived even the massive insult of a plane crash if the
fireproofing had remained in place, is at once both chilling and promising,
chilling because the massive loss of life was not inevitable, promising because
it is an indication we can do more to protect lives in the future.
This committee will be asking hard questions of all of
our witnesses today, to make sure we do take all reasonable steps to protect
lives. We will be looking into whether NIST’s recommendations are written in a
way that will facilitate the adoption by code groups. It appears that they do
not. We will be probing whether code groups are prepared to fully and fairly
review the recommendations. On that, while the initial indications in today’s
testimony are promising, the jury necessarily is still out.
But our tough questions should not obscure the debt of
gratitude we owe to NIST. NIST took seriously the mandate from this committee,
and Mr. Weiner, I want to thank you for your assistance in that, and the Nation
gave it in the National Construction Safety Team Act, and assembled an
impressive group of experts that produced a comprehensive and impressive report.
But our focus now has to be on whether everyone is doing enough to translate
the report into specific, concrete steps that will prevent future tragedies.
The protection of life is the highest responsibility of
public officials, and our hearing today is about that responsibility, just as
much as any hearing on the military or homeland security would be. But the
process in this case is far more complex, because of the way it involves the private
sector and every level of government. But complexity is not an excuse for
inaction.
Before I turn to the minority, I want to give a special
welcome to Bill Jeffrey, who is making his first appearance before this
committee. I say first public appearance, because Dr. Jeffrey has long been a
valued advisor to this committee in his work at the Office of Science and
Technology Policy, someone we have admired for his intelligence,
open-mindedness, and candor.
We could not be more delighted with his appointment as
the Director of NIST, and we very much look forward to continuing to work with
him. Hopefully, after today, he will still feel that way about us. This isn’t,
perhaps, the topic any of us would have chosen for his maiden hearing, but there
is none of greater importance, and this hearing underscores the importance of
NIST and its need for greater funding. But I won’t get started on that subject
now; we have more than enough to deal with today.
And I also want to welcome back someone who has been so
invaluable to this committee as counsel, Sally Regenhard, Chairperson of the
Skyscraper Safety Committee. She is emotionally and intellectually involved in
our proceedings in so many different ways, and she has been a source of
strength and inspiration to us, and she is dogged in her determination, and I
commend her for that. People will often ask me, ”When you go to Washington, I
bet you meet with lobbyists.” And I say ”Sure, I meet with lobbyists. Every
single day. Lobbyists are people who advocate for something.” And there is one
of the best lobbyists in this town today in Sally Regenhard. What she is
advocating for involves the protection of life.
So, with that, let me turn to Mr. Miller for any
statement he might care to make, and then we will have our first panel of one,
Ms. Regenhard.
[The prepared statement of Chairman Boehlert follows:]
PREPARED STATEMENT OF CHAIRMAN SHERWOOD L. BOEHLERT
I want to welcome everyone to this important hearing,
this committee’s third on the tragic collapse of the World Trade Center, but
probably not our last. I want to promise (and perhaps warn) everyone at the
outset that this committee will be closely monitoring the follow-up to the
National Institute of Standards and Technology (NIST) report on the events of
September 11.
That means we will be watching what NIST does, what
other federal agencies do, and what the code writing organizations do. We are
obviously not technical experts, but we will be making sure that the
recommendations are considered fully and thoroughly, that NIST is doing
everything necessary to back up those recommendations, and that any decisions
are fully justified by the facts.
The issues raised in NIST’s report go far beyond a
single, horrific terrorist incident, and indeed beyond terrorism as a
phenomenon. The report raises fundamental questions about what we know about
the behavior of buildings and their contents, what we know about the behavior
of individuals in emergencies, and about whether buildings are well enough
designed for any large emergency. This is not about making every building
strong enough to survive a plane crash.
That said, NIST’s conclusion that the Trade Center
buildings could have survived even the massive insult of a plane crash if the
fireproofing had remained in place is at once both chilling and
promising—chilling because the massive loss of life was not inevitable;
promising because it is an indication we can do more to protect lives in the
future.
We could not be more delighted with his appointment as
the Director of NIST, and we very much look forward to continuing to work with
him. Hopefully, after today, he will still feel that way about us. This isn’t
perhaps the topic any of us would have chosen for his ”maiden” hearing, but there
is none of greater importance. And this hearing underscores the importance of
NIST, and its need for greater funding. But I won’t get started on that subject
now; we have more than enough to deal with today. Mr. Gordon.
Mr. MILLER. Thank you, Mr. Chairman. I want to
join Chairman Boehlert in welcoming everyone to this morning’s hearing.
On the surface, today’s topic may sound dry and
technical. However, what we are talking about here really is saving lives. The
sole purpose of the National Construction Safety Team Act is to save
lives by investigating and understanding building collapses, and then improve
building codes, emergency response, and evacuation procedures.
The National Institute of Standards and Technology’s,
NIST’s, World Trade Center investigation and their recommendations are the
first real result of the Act. The NIST report is a good first step, but really
a lot remains to be done. We need to know what is required to translate these
NIST recommendations into improved buildings and emergency response and
evacuation procedures. Those changes will improve public safety, and otherwise,
we would have nothing to show, except another government report sitting on a
shelf. That is going to require continued oversight by this committee as the
process moves forward.
I also encourage the witnesses to give us their
assessment of the work that NIST has done during the last two years, and what
they think could be improved. And I want to mention that I am not only
interested in the subject from the Science Committee perspective, but also how
it relates to the Terrorism Risk Insurance Act, TRIA, which is now
pending before the Financial Services Committee, and whether we should consider
the NIST recommendations as part of private sector preparedness, and how that
affects TRIA.
Now, I would like to yield the balance of my time to a
former Member of the Science Committee, Anthony Weiner. Mr. Weiner has no small
interest in NIST’s work on the World Trade Center investigation, both as a
Member from New York City, but also, he was the co-author, along with Chairman
Boehlert, of the National Construction Safety Team Act.
Mr. Weiner, welcome back.
[The prepared statement of Mr. Miller follows:]
PREPARED STATEMENT OF REPRESENTATIVE BRAD MILLER
I want to join Chairman Boehlert in welcoming everyone
to this morning’s hearing.
On the surface, today’s hearing topic may sound dry and
technical. However, what we’re really talking about is saving lives. The sole
purpose of the National Construction Safety Team Act is to save lives by
investigating and understanding building collapses and then improve building
codes, emergency response and evacuation procedures.
The National Institute of Standards and Technology’s
(NIST) World Trade Center (WTC) investigation and recommendations are the first
case of implementation of the Act. The NIST report is a good first step, but
much work remains to be done. We need to know what is required to translate the
NIST recommendations into improved building codes, and emergency response and
evacuation procedures. It is these changes that will improve public safety,
otherwise we will have nothing more than another government report sitting on a
shelf. This will also require continued oversight by the Science Committee as
the process moves forward.
I’m also encourage the witnesses to give us their
assessment of what NIST has done during the past two years and what they feel
could be improved. I also want to mention that I’m not only interested in this
subject from a Science Committee perspective, but also how it relates to
Terrorism Risk Insurance from my work on the Financial Services Committee.
Now I would like to yield the balance of my time to a
former Member of the Science Committee, Anthony Weiner. Rep. Weiner not only
has a parochial interest in the NIST’s WTC investigation, but he was a
co-author, with Chairman Boehlert, of the National Construction Safety Team
Act.
Mr. WEINER. Thank you, Mr. Miller. I appreciate
it, and thank you, Mr. Chairman, for continuing to keep the effort alive that
was one of the ones that emerged after September 11 that truly drew consensus
in this Congress. I want to welcome back, also, Sally Regenhard, who if it was
the Boehlert-Weiner Bill, it really should have been the
Boehlert-Weiner-Regenhard Bill, because she acknowledged and called all of our
attention to the notion that we all agree upon now, that before September 11
and until the passage of this legislation, there was no effort by government to
do any kind of forensic examination of why buildings collapse, how we make them
stronger, and how we make sure that they never happen again.
That is just one of the things I think we agree upon at
this point. We also agree, and from learning, from reading the report and from
hearing the stories of those that were inside, and those that were engaged in
the largest civic rescue in our nation’s history, there were some tragic flaws
in the design of the World Trade Center. There were also some remarkable design
achievements that allowed the buildings to stand despite remarkable stress.
But we also, after getting the report back now, I think
there is an emerging consensus on a couple of other issues as well. One is that
the study doesn’t go far enough. The study doesn’t include the level of
specificity that would truly make the report a handbook for those seeking to
come up with building codes in the future. The City of New York is involved in
something it hasn’t done in a generation, which is rewriting its building
codes. If I were to send this report to the City of New York, and they wanted
to go to a reference and say, well, how do we follow up on the NIST
recommendation that we improve standards for fire resistance testing. Is there
a standard in this report? And the answer is no. If they want to follow up on
the NIST recommendation that fire protection and suppression redundancy be
built into buildings, is there a specific standard that they can take from this
report? The answer is no. So, I think that we have fallen short, NIST has
fallen short of making this a true reference manual for future protection of
big buildings. And for those of us in New York City and other big cities, and
frankly, even medium sized cities that are building buildings of greater than
twenty stories, it falls short.
And I also think something else. You know, we in
government have a certain tolerance for the slow pace of things. This took too
long. It took too long for NIST to produce a report that really doesn’t get us
anywhere past the 50 yard line here. We are not in the Red Zone. We are not
getting close to the place that we need to be. And I am prepared to introduce
legislation, hopefully with the support of this committee and its great
chairman, to say okay, let us take the next step. Let us take these general
recommendations. Let us take the general forensic examination that was done on
the World Trade Center. Let us take the general propositions that are suggested
herein. Let us assume they are correct, but let us take the next step. Let us
produce a document that truly has some fairly specific standards. Let us
incentivize, but not require—I don’t believe we should have a Federal Buildings
Department—that incentivizes cities, states, and localities to adopt these
things, and also, allows families, allow legislators when considering things
like TRIA or building codes in Skokie, Illinois or Brooklyn, New York, to have
a reference guide that they can use. Only then will the true goals of our
original legislation have been fulfilled, and I think that that is something
that we should point towards in the future.
And I thank you again, Mr. Chairman, for allowing me to
sit in. I want to thank all of the professionals at NIST. Mr. Jeffrey, I am
sure by now you have gotten to know the Chairman. You and I haven’t gotten to
know one another. I am sure you have gotten to know Members of this committee.
You would be wise to get to know Sally Regenhard very well, because whether you
would like to or not, you are going to have a very big file with her name on
it, and she has shown us one thing, you know, for those of us that have lost
loved ones, there are many ways that people express their grief. The way Sally
Regenhard and many of her friends and neighbors have expressed their grief is
by making sure that there are no such disasters like this again in the future,
and doing everything we can to prevent it. That is something that Chairman
Boehlert and I are committed to. I know the professionals at NIST are committed
to that. Now we have to go and finally get that job done.
And I thank you, Mr. Chairman.
Chairman BOEHLERT. Well, welcome back, and just
let me say how pleased I am that you are finally getting to meet Dr. Jeffrey,
because to know him is to like him, but more importantly, to know what he is
all about and his mission and his approach to the job is to know he is
determined to follow through, as we are.
This is just another hearing. This is not the final
chapter in a drama about a horrific incident. We are determined to follow
through, as is Dr. Jeffrey and the people at NIST working with the National
Institute of Building Sciences. This is, by no means, the final chapter. This
is another chapter, but we are determined to go forward working together, and
we welcome you back as part of the team.
With that, let me present the first witness, and I—Dr.
Ehlers.
Mr. EHLERS. Thank you, Mr. Chairman. I
appreciate you calling this hearing, and am very pleased to see the results
that have been achieved. It is a little known facet of NIST responsibilities to
do this sort of thing, and I am very pleased with the work they have done. And
I think is providing a very strong base on which to build for the future.
I want to thank all our witnesses for coming here
today. In particular, I want to congratulate Dr. Jeffrey, the new NIST
Director, on his first appearance before this committee, and on NIST’s latest
Nobel Prize for Physics, announced this month to Dr. Jan Hall, a former
colleague from my days as a researcher at NIST’s Joint Institute for Laboratory
Astrophysics, better known as JILA at the University of Colorado. And I have
known Dr. Hall for years, and he is certainly deserving of this honor. This
increases Nobel Prizes to three, demonstrating that NIST continues to be a
world leader in research and theoretical work. I might also add that now that a
physicist is heading the organization, I expect the output of Nobel Prizes will
increase, and so, I will leave that to you as a challenge. I also wanted to
congratulate Mr. Henry Green, a resident of my home State of Michigan, on his
prestigious new position as President of the International Code Council, and I
have had the pleasure of meeting with Mr. Green, and I am very impressed with
him and his ability. I look forward to great things from him and his work on
that Council.
The National Construction Safety Team Act, which
originated in this committee, gave NIST specific authorities necessary to
complete the monumental task of understanding the collapse of the World Trade
Center towers. Today’s hearing will give the Science Committee the chance to
learn about NIST’s findings and recommendations, and obtain comments from the
witnesses about these recommendations and the process by which they will be
implemented.
The publication of the NIST report may signal the end
of the investigation itself, but it launches a new phase in that process which
I hope will result in safer buildings. NIST’s recommendations indicate that
there are opportunities to make buildings safer and more resilient to fires and
other incidents, to improve evacuation routes and procedures, and to improve
emergency response. However, the task of amending the building codes is in the
hands of the private sector and the State and local officials. NIST’s role now
becomes technical advisor to the code development process. Congress needs to
understand this process, and must support the research and testing required if
any of NIST’s recommendations are to become common practice. Congress also
needs to understand what challenges may exist in implementing NIST’s
recommendations. Finally, I hope we hear from NIST about how it plans to use
the National Construction Safety Team Act in the future, because I am
certain we will have other occasions that this has to be called into action.
I want to thank NIST for the good work that you have
done. Keep this up as we continue to work together to make buildings safer,
both during and after disasters. I will have to apologize, because I will be in
and out of this committee meeting, mostly out, because I have two other
committee meetings simultaneously, and we are marking up bills, so my presence
is required for votes. And I apologize to the Members testifying, the witnesses
testifying, and also to the Chairman, but I will be here as much as I can.
[The prepared statement of Mr. Ehlers follows:]
PREPARED STATEMENT OF REPRESENTATIVE VERNON J. EHLERS
Thank you,
Chairman Boehlert.
I want to thank all our witnesses for coming here
today. In particular, I want to congratulate Dr. William Jeffrey, the new NIST
Director, on his first appearance before this Committee, and on NIST’s latest
Nobel Prize for Physics, announced this month to Dr. Jan Hall, a former
colleague from my days as a researcher at NIST’s Joint Institute for Laboratory
Astrophysics (JILA) at the University of Colorado. This increases NIST’s Nobel
Prizes to three, demonstrating that NIST continues to be a world leader in
research and theoretical work. I also want to congratulate Mr. Henry Green, a
resident of my home State of Michigan, on his prestigious new position as
President of the International Code Council (ICC).
The National Construction Safety Team Act (NCST),
which originated in this committee, gave NIST specific authorities necessary to
complete the monumental task of understanding the collapse of the World Trade
Center Towers. Today’s hearing will give the Science Committee the chance to
learn about NIST’s findings and recommendations, and obtain comments from the
witnesses about these recommendations and the process by which they will be
implemented.
The publication of the NIST report may signal the end
of the investigation itself, but it launches a new phase in a process that I
hope will result in safer buildings. NIST’s recommendations indicate that there
are opportunities to make buildings safer and more resilient to fires and other
incidents, to improve evacuation routes and procedures, and to improve emergency
response. However, the task of amending the building codes is in the hands of
the private sector and state and local officials. NIST’s role now becomes
technical advisor to the code development process. Congress needs to understand
this process, and must support the research and testing required if any of
NIST’s recommendations are to become common practice. Congress also needs to
understand what challenges may exist in implementing NIST’s recommendations.
Finally, I hope we hear from NIST about how it plans to use the National
Construction Safety Team Act in the future.
Thank you to NIST for the good work you’ve done. Keep
this up as we continue to work together to make buildings safer both during and
after disasters.
Chairman BOEHLERT. Well, now that you are making
some admissions, in the interest of full disclosure, while we are all very
proud of that Nobel Prize in physics for NIST, in the interest of full
disclosure, Dr. Ehlers is a physicist, and so, he is particularly proud.
[The prepared statement of Mr. Costello follows:]
PREPARED STATEMENT OF REPRESENTATIVE JERRY F. COSTELLO
Good morning. I want to thank the witnesses for
appearing before our committee to discuss the findings and recommendations of
the National Institute of Standard and Technology’s (NIST) investigation into
the collapse of the World Trade Center (WTC).
This committee has held two hearings in 2002 on the WTC
collapse that focused on how the Federal Government investigates catastrophic
building failures and the lessons learned from the collapse. Concerns raised at
the hearing included the lack of any specific federal authority, protocols, or
funding for investigations of any kind. As we have learned from the
catastrophic damages of Hurricane Katrina, coordination among federal agencies
is critical for gauging our preparedness and responding to national disasters.
In order to address these concerns, it is my understanding that NIST issued a
draft report for public comment that summarizes the findings of the
investigation and includes thirty recommendations to improve the safety of tall
buildings, occupants, and emergency responders. However, for NIST’s plans to be
effective, they must be implemented by standards organized and adopted by State
and local authorities that set building codes and standards. I want to know how
NIST intends to implement its research and recommendations for improved
building codes, emergency response and evacuation procedures.
I welcome our witnesses and look forward to their
testimony.
[The prepared statement of Ms. Johnson follows:]
PREPARED STATEMENT OF REPRESENTATIVE EDDIE BERNICE JOHNSON
Thank you, Mr. Chairman and Ranking Member.
The events of September 11, 2001, changed our lives
forever. That day changed how we Americans prepare ourselves against terrorism.
Building codes and safety regulations play a critical
role during a disaster—natural or otherwise. Smart construction can mean the
difference between life and death.
During an attack, the weight of collapsing building
materials and heat of fire challenge even the best building designs.
The National Institute of Standards and Technology has
come today to report on its findings and recommendations following its
investigation into the collapse of the World Trade Center.
I hope today’s discussion will underscore this key
report and help the Committee understand how building and fire code
organizations plan to implement the recommendations contained in that report.
I would like to extend a warm welcome to our witnesses
today. Thank you, Mr. Chairman.
[The prepared statement of Mr. Carnahan follows:]
PREPARED STATEMENT OF REPRESENTATIVE RUSS CARNAHAN
Mr. Chairman and Mr. Ranking Member, thank you for
hosting this important hearing.
I am eager to learn more about the National Institute
of Standards and Technology report recommendations. The World Trade Center
collapse was a horrific episode for our nation and this report is another
appropriate measure that revisits the events and permits us to learn from the
tragedy.
Building safety and emergency evacuation are issues
that go well beyond the subject of terrorism. This terrible hurricane season is
demonstrating all too well the effect natural disasters have on man-made
structures and our communities.
I represent a congressional district in St. Louis City
that runs south along the Mississippi river. Our region is near the New Madrid
earthquake center, which struck the area from 1811 to 1812. These sequences are
the most powerful earthquakes ever to have been felt on the North American
continent. The New Madrid Fault System remains a threat to our region, and
thus, I am eager to learn more about the steps our community needs to take to
better prepare our structures for a possible earthquake.
To the multiple witnesses that appear before us today,
thank you for your time and your efforts. I look forward to hearing your
testimony.
[The prepared statement of Ms. Jackson Lee follows:]
PREPARED STATEMENT OF REPRESENTATIVE SHEILA JACKSON LEE
In looking at what are the next steps in terms of
building codes and building structures and integrity, we must unfortunately
review what took place on that dreadful day know as September 11th. Like most
building collapses, these events were the result of a combination of factors.
While the buildings were able to withstand the initial impact of the aircraft,
the resulting fires that spread through the towers weakened support columns and
floors that had fireproofing dislodged by the impacts. This eventually led to
collapse as the perimeter columns were pulled inward by the sagging floors and
buckled. According to reports, each aircraft severed perimeter columns, damaged
interior core columns and knocked off fireproofing from steel as the planes
penetrated the buildings. The weight carried by the severed columns was
distributed to other columns. Subsequently, fires began that were initiated by
the aircraft’s jet fuel but were fed for the most part by the building contents
and the air supply resulting from breached walls and fire-induced window
breakage. These fires, in combination with the dislodged fireproofing, were
responsible for a chain of events in which the building core weakened and began
losing its ability to carry loads. The floors weakened and sagged from the
fires, pulling inward on the perimeter columns. Floor sagging and exposure to
high temperatures caused the perimeter columns to bow inward and buckle—a
process that spread across the faces of the buildings which as a result caused
the entire structure to collapse.
As a Member of the Committee on Homeland Security, I am
very interested in hearing the testimony of our witnesses today. While there
have been many theories, no one really knows when, where and if another
terrorist attack will take place. It is due to this uncertainty that we must do
our best to be prepared in all possible aspects of homeland security. It is my
understanding that the September 20, 2005 report released by NIST includes a
detailed technical analysis of the root causes of the building failures as well
recommendations to improve the safety of tall buildings, occupants and
emergency responders. I believe these recommendations fall into eight
categories of thirty recommendations. Loosely categorized these are: 1)
increased structural integrity, 2) enhanced fire resistance of structures, 3)
new methods for fire resistance design, 4) improved active fire protection, 5)
improved building evacuation procedures, 6) improved emergency response, 7)
improved procedures and practices in the design, construction and operation of buildings;
and 8) upgrading the education/training of building and fire safety
professionals. In closing, I look forward to the statements and recommendations
of our witnesses as they lay out a road map as to how to protect our nation’s
structures.
[The prepared statement of Mr. Moore follows:]
PREPARED STATEMENT OF REPRESENTATIVE DENNIS MOORE
More than four years after the devastating terrorist
attacks of September 11, 2001, we still remember too well the horrible images
of that morning: the citizens of New York and Washington D.C. running in fear
and confusion from the site of the attacks, firemen and other safety personnel
bravely ushering men and women out of harms way, and the skeletal remains of
the Twin Towers silhouetted against the bright September sky.
Within hours of the attacks themselves, the Twin Towers
collapsed, killing thousands of individuals trapped inside.
While there were many factors that contributed to the
catastrophic loss of human life our country suffered on 9/11, an issue that
demands careful scrutiny by this committee is the circumstances that
contributed to the collapse of the Towers themselves.
As co-chair of the Congressional Hazards Caucus,
ensuring that our buildings are properly designed and constructed to handle
destructive forces, whether they are terrorist attacks, hurricanes, or
tornadoes is of utmost importance to me.
I appreciate the willingness of the panel to share
their opinions with the Members of the Science Committee on the findings of the
National Institute of Standard and Technology’s (NIST) report on the collapse
of the World Trace Center and look forward to working with you in the future to
ensure the continued safety and security of not only our buildings, but of the
American people.
Chairman BOEHLERT. Now, with that, and no
further opening statements, let me present, welcome back to the Committee, Ms.
Sally Regenhard, Chairperson of the Skyscraper Safety Committee. Ms. Regenhard,
the floor is yours, and she will have a very interesting statement, and so much
of the commentary in her statement will lead us to provide questions to the
panel that will follow.
So, Ms. Regenhard, the floor is yours.
Panel I:
STATEMENT OF SALLY REGENHARD, CHAIRPERSON, SKYSCRAPER SAFETY CAMPAIGN
Ms. REGENHARD. Okay. Thank you. Good morning,
Chairman Boehlert and Members of the House Science Committee. It is truly an
honor and a privilege to address you today.
I must first begin by thanking Chairman Sherwood
Boehlert and this committee for listening with compassion and concern to the
families of the victims of 9/11. When we first came here in March and May of
2002, we were desperately seeking leadership for an investigation of what
happened to our loved ones on 9/11. We had sought this on the local level in
New York City, but found no one to help us answer the painful questions
regarding what happened to our loved ones in the World Trade Center on that
dreaded day of infamy.
Chairman Boehlert and the Science Committee, you have
redeemed our belief in the system, and renewed our faith in the process of
representative government in our beloved country, and for this, we profoundly
thank you. The families of the victims as well as the American public remain in
your debt for your efforts in authorizing a WTC investigation through the National
Construction Safety Team Act.
I must also begin by thanking NIST for interacting with
us on a regular basis over the past three years, via conference calls and
meetings, with myself and my SSC co-chair, Monica Gabrielle, who is out of the
country and cannot be here today. I know that it has not always been easy to
deal with me and with other victims’ families, but I appreciate the tolerance
and respect shown to us by NIST. I also appreciate the vast technical research
abilities of this organization and the enormous task of embarking upon the WTC
investigation.
In totality, however, while some very valuable results
were achieved, the overall mode and findings of the investigation was not what
I had hoped for. I had certain hopes regarding NIST in the investigation, but I
and others were somewhat disillusioned regarding what NIST was willing and able
to do. I had hoped for more specific and comprehensive recommendations that
could easily be translated into code reform and change, but this was not the
case. The recommendations, I feel, are very general and lack specifics. I feel
that the vagueness of the language was influenced by a need for political
correctness and a general reluctance or an inability to investigate, use
subpoena power, lay blame, or even point out the deadly mistakes of 9/11 in the
World Trade Center.
The following are five areas of concern of the
Skyscraper Safety Campaign, and these concerns have been compiled by input from
my professional advisors, as well as my own experience during the last four
years.
The first area of concern is the role of the Port
Authority of New York and New Jersey and its exemptions from immunities and
codes. The failure of the NIST investigation to comprehensively examine what
role these immunities played in the design, construction, maintenance, and
ultimate collapse of the World Trade Center, is of great concern to me.
Secondly, the lack of more intense emphasis on the
fireproofing issues, the premature disposal of the steel evidence, the heavy
reliance on computer modeling for the fire testing, and the reluctance to focus
on cause, blame, and resultant implications are troubling to us.
Number
three, the reliance on the voluntary cooperation of key figures in the
investigation to provide needed information, putting the WTC chief structural
engineer on the payroll to facilitate his involvement in the investigation,
utilizing researchers to the exclusion of true investigators going into the
field to obtain evidence is also problematic to me. On this last point, I want
to note that I have been married to an NYPD detective sergeant for over 30
years, and I can recognize an investigation when I see one. I feel the inherent
character of the NIST as a research rather than an investigative agency was a
factor in this situation.
Number four, the lack of focus on evacuation issues of
the World Trade Center, such as the remoteness of the exits, the behavior of
fleeing persons in the stairwells, and the avoidance of first person accounts
of stairwell evacuation, and the length of time it took to evacuate the
building was a shortcoming.
Finally, the relative secrecy of the investigation and
the withholding of all materials and documents used by NIST to arrive at the
study’s conclusions is very disturbing. These materials should be made available
to professionals to further study and to analyze, and to question and verify
the findings according to the scientific method. And they should not be locked
away in the National Archives or anywhere else. I certainly hope that I could
call on the Science Committee to help unlock this information for the American
public in the future.
In conclusion, for these and for other reasons, I feel
that government must take a larger role in developing stronger codes and
standards for building and public safety, by being a true resource to the code
industry. Government representatives should be part of code writing groups, to
provide advice and guidance, and to help develop standards and practices. As it
stands now, it is largely a battle of the do-gooders, like me and the
Skyscraper Safety Advisors, versus the business interests, in a never-ending
conflict regarding public safety. The NIST investigation should not be an end.
It should be just the beginning of a new era, in which we see the real and
meaningful role that government must play in the safety and wellbeing of the
American people. In addition to the laudable creation of the National
Construction Safety Team Act, this participation can be an additional
legacy for the innocent victims of 9/11, including my beautiful son,
Probationary Firefighter Christian Michael Otto Regenhard, whose godmother is
holding his picture here today. He continues to be the inspiration for the work
and the accomplishments of the Skyscraper Safety Campaign.
I thank you all for this opportunity to speak to you
today. God bless you all in your work.
[The prepared statement of Ms. Regenhard follows:]
PREPARED STATEMENT OF SALLY REGENHARD
Good morning Chairman Boehlert and Members of the House
Science Committee. It is truly an honor and a privilege to address you today. I
must first begin by thanking Chairman Sherwood Boehlert and this committee, for
listening with compassion and concern to the families of the victims of 9/11.
When we first came here in March and May of 2002, we were desperately seeking
leadership for an investigation of what happened to our loved ones on 9/11/01.
We had sought this on the local level in NYC, but found no one to help us answer
the painful questions regarding what happened to our loved ones in the WTC on
that dreaded day of infamy.
Chairman Boehlert and the Science Committee redeemed
our belief in the system, and renewed our faith in the process of
representative government in our beloved country, and for this, we profoundly
thank you. The families of the victims, as well as the American public, remain
in your debt for your efforts in authorizing a WTC Investigation through the National
Construction Safety Team Act.
I must begin by thanking NIST for interacting with us
on a regular basis over the past three years, via conference calls and
meetings, with myself and my SSC co-chair, Monica Gabrielle, who is out of the
country, and cannot be here today. I know it has not always been easy to deal
with me and other victims’ families, but I appreciate the tolerance and respect
showed by NIST. I also appreciate the vast technical research abilities of this
organization, and the enormous task of embarking upon the WTC Investigation.
In totality however, while some very valuable results
were achieved, the overall mode and findings of the investigation was not what
I had hoped for. I had certain hopes regarding NIST and the investigation, but
I and others were disillusioned regarding what NIST was willing and able to do.
I had hoped for more specific and comprehensive recommendations that could
easily be translated into code reform and change, but this is not the case. The
recommendations are very general and lack specifics. I feel that the vagueness
of the language was influenced by political correctness and a general
reluctance or inability to ”investigate,” use subpoena power, ”lay blame,”
or even point out the deadly mistakes of 9/11 in the WTC.
The following are five areas of concern for the
Skyscraper Safety Campaign: (While I have an understanding of these issues in
concept, for answers to specific, technical questions, I would like to confer
with two of my technical advisors who are with me here today.)
1) The role of the Port Authority of NYNJ and its’ exemptions from
immunities and codes. The failure of the NIST Investigation to comprehensively
examine what role these immunities had in the design, construction, maintenance
and ultimate collapse of the WTC is of great concern to me.
2) The lack of more intense emphasis on fireproofing issues, premature
disposal of steel evidence, the heavy reliance on computer modeling for fire
testing, and the reluctance to focus on cause, blame, and resultant
implications are troubling.
3) The reliance on the voluntary cooperation of key figures in the
investigation to provide needed information; placing the former WTC chief
structural engineer on the payroll to facilitate his involvement in the
investigation, utilizing researchers to the exclusion of true investigators
going into the field to obtain evidence is problematic to me. On this last
point, I have been married to a NYPD detective sergeant for over 30 years, and
I can recognize an Investigation when I see one. I feel the inherent character
of NIST as a research rather than investigative agency was a factor in this
situation.
4) The lack of focus on evacuation issues of the WTC such as remoteness of
exits, behavior of fleeing persons in the stairwells, and the avoidance of
first person accounts of stairwell evacuation, and length of time it took to
evacuate the building was a shortcoming.
5) The relative secrecy of the investigation, and the withholding of all
materials and documents used by NIST to arrive at the study’s conclusions is
very disturbing. These materials should be made available to professionals for
further study and analysis, to question and/or duplicate the findings,
according to the scientific method, and should not be locked away in the
National Archives or anywhere else. I hope I can call on the Science Committee
to unlock this information for the American public.
In conclusion, for these and other reasons, I feel that
government must take a larger role in developing stronger codes and standards
for building and public safety. Government representatives should be part of
code writing groups, and help to develop standards and practices. As is stands
now, it is a battle of the ”do-gooders” like me and the Skyscraper Safety
Advisors vs. business interests, in a never ending conflict regarding public
safety. The NIST investigation should not be an end; it should be just the
beginning of a new era in which we see the real and meaningful role that
government must play in the safety and well being of the American people. In
addition to the laudable creation of the National Construction Safety Team
Act, this participation can be an additional legacy for the innocent
victims of 9/11, including my beautiful son, Probationary Firefighter Christian
Michael Otto Regenhard, who continues to be the inspiration for the work and
accomplishments of the Skyscraper Safety Campaign. Thank you for this
opportunity to speak today. God bless you all.
Chairman BOEHLERT.
Thank you very much, and you continue to be an inspiration to this committee.
Let me point out that now, the witnesses that will
follow. I hope you are going to be able to remain to listen to their testimony,
and to listen to the questioning. I think you are absolutely correct in
pointing out that I think it is a shared interest in being more specific,
rather than vague, in the report, but NIST, I think, has done an outstanding
job, and NIST correctly, as you identified in your testimony, is not an
investigative agency. It is a research agency. I have found NIST to be most
cooperative, but we are going to hold their feet to the fire, and we are going
to make certain they follow through in their recommendations.
So, I think, hopefully, some measure of comfort will
come to you from the statement of Dr. Jeffrey and his expressed determination
to follow through on this. And I think you will be interested in what some of
other witnesses have to say. These are people with whom you are familiar. And
finally, I just hope it is not the do-gooders versus the business interests. I
think we have got to have a partnership here. It is good business to make
buildings safer, and that does good in the process. So, we will all work
together. Thank you very much.
Ms. REGENHARD. Thank you very much.
Chairman BOEHLERT. The second panel today
consists of Dr. William Jeffrey, Director of the National Institute of
Standards and Technology; Ms. Nancy McNabb, Director of Government Affairs,
National Fire Protection Association; Dr. James R. Harris, President, J.R.
Harris and Company, Member, American Society of Civil Engineers; and Mr. Glenn
Corbett, Assistant Professor of Fire Science, John Jay College of Criminal
Justice, Member of NIST National Construction Safety Team Advisory Board; and
for the purpose of an introduction of our final witness, I call on our
distinguished colleague, Mr. Schwarz of Michigan.
Mr. SCHWARZ. Thank you, Mr. Chairman. It is not
frequently that I have the opportunity to introduce a constituent to his
testifying before this committee, but in this case, Mr. Henry L. Green not only
serves as President of the Board of Directors for the International Code
Council, but as an expert in his field, and as a constituent of mine from Delta
Township, which is just outside of Lansing, Michigan. In 1989, Mr. Green was
appointed Executive Director of the Bureau of Construction Codes and Fire
Safety for the Michigan Department of Labor and Economic Growth. Henry, they
keep changing the names of the departments. That was what it was when I was in
the State senate. He has worked in the Bureau for more than 20 years, serving
as Building Inspector, Chief of the Barrier Free Design Division, Chief
Building Inspector, and as Deputy Director before assuming his current role. He
also serves on the Building Officials Code Administration, BOCA, Board of
Directors, serving as President in 1997.
Mr. Chairman, Mr. Green is eminently qualified to
testify before this committee, and I am equally delighted that he is here and a
constituent of mine from mid-Michigan, from the 7th District. Actually, he is
from Spartan Country, not Wolverine Country, but we will forgive him for that.
Chairman BOEHLERT. Mr. Green would join us at
the table, and thank you very much for that eloquent introduction. I have had
the pleasure of meeting Mr. Green, and I want to welcome you here. I want to
welcome all of you here, and I want to thank you for being resources for this
committee. I particularly want to welcome Dr. Jeffrey in his maiden public
appearance before the Science Committee, in his present capacity.
Dr. Jeffrey, the floor is yours. And I would say to all
our witnesses, we would ask that you try to summarize your opening statement in
five minutes or so. We are not going to be all that arbitrary, but that will
allow more time for questions and interaction between the panel and the
Members. Dr. Jeffrey, the floor is yours.
Panel II:
STATEMENT OF DR. WILLIAM JEFFREY, DIRECTOR, NATIONAL INSTITUTE OF STANDARDS AND
TECHNOLOGY
Dr. JEFFREY. Thank you, Mr. Chairman, and also
thank you for your warm welcome remarks.
Mr. Chairman and Members of the Committee, I am pleased
to testify on the NIST investigation of the World Trade Center disaster. With
your permission, I have a written statement for the record, along with our
final report.
Chairman BOEHLERT. Without objection, so
ordered. All the statements in their entirety will be part of the official
record.
Dr. JEFFREY. And I will now summarize our work
to date and our plans for the future. We announced this investigation saying it
would be thorough, open, and result in meaningful recommendations.
It was thorough. NIST was able to acquire and test
enough steel from the buildings to have confidence in our findings. We acquired
more than 7,000 photos and 150 hours of videotape. We interviewed nearly 1,200
survivors and first responders, and we gained access to key information about
the building’s design and construction.
It was also
open. We sought public comment on our plans even before we began the
investigation. We held numerous briefings for the public, published reports on
our progress, and solicited comments. We sought input from an advisory
committee of outside experts. We established a special liaison with the
families of victims, and communicated regularly with the relevant organizations
in New York City. This was no academic exercise. We were charged with
developing meaningful recommendations, and we have done that. Using the
recommendations from this investigation to make improvements in the way people
design, maintain, and use buildings has just begun. NIST is working vigorously
with the relevant communities to turn the recommendations into action.
The direct link between the terrorist-initiated
airplane attacks, the ensuing fires, and the collapse of the towers was
established through extensive testing, analyses, and computer modeling. Here,
you see a model of the aircraft as it enters Tower 1, and the damage that was
inflicted as debris and jet fuel spread over multiple floors. These models
helped us to estimate the internal damage to the structure and fireproofing
that was not visible in photos and videos taken from the outside.
The egress capacity required by the current building
codes is based on evacuating a single floor, not an entire building.
Fortunately, the towers were only one third to one half of full capacity that
morning, allowing 87 percent of the occupants to evacuate. Had the buildings
been full, with about 20,000 occupants each, roughly 14,000 people may have
lost their lives. Radio communications were a problem due to three factors:
first, the challenging radio frequency environment posed by buildings; second,
the scale of operations that overwhelmed the available frequencies and exceeded
the limits of the communication protocols; and third, the difficulty of
transmissions between different organizations.
The recommendations we have made call for specific
actions. We made our recommendations as specific as we could, identifying the
parties that need to help take the next steps. The recommendations do not
prescribe specific systems, materials, or technologies. Instead, NIST
encourages competition among alternatives that can meet performance
requirements. Within these recommendations, NIST has identified 37 specific
national model codes, standards, practice guidelines, or regulations that merit
consideration through an open and consensus-driven process.
NIST’s response plan consists of three parts. First,
the building and fire safety investigation. And today, we are releasing the
final version of 43 reports documenting this investigation, and plan to release
draft reports in the spring documenting our investigation of WTC 7. Second, our
research and development program, and third, a dissemination and technical
assistance program to facilitate adoption of the proposed changes.
As part of this effort, NIST is aggressively working
with the model building code organizations and others representing State and
local officials to facilitate this process. Among other things, NIST has held a
major conference to focus attention on getting action on these recommendations.
We have contracted with the National Institute of Building Sciences to turn the
appropriate recommendations into draft code language for submission to the
national model code developers, and we have assigned a staff member
responsibility for following up on each and every recommendation.
Past NIST investigations have resulted in substantive
improvements in building safety. For example, improvements to manufactured homes
were made following our work on Hurricanes Andrew and Camille. Improvements in
construction safety and inspection resulted from NIST’s investigation of an
apartment building under construction in Connecticut. There are many more
examples of NIST’s investigations resulting in improvements to building safety,
and we will do everything possible to add the WTC investigation to this list.
Thank you for your support and this opportunity to
update the Committee.
[The prepared statement of Dr. Jeffrey follows:]
PREPARED STATEMENT OF WILLIAM JEFFREY
Mr. Chairman, and Members of the Committee, I am
William Jeffrey, Director of the National Institute of Standards and
Technology. I am pleased to appear today and testify on the building and fire
safety investigation of the World Trade Center disaster carried out by the
National Institute of Standards and Technology (NIST).
NIST announced its building and fire safety
investigation of the World Trade Center (WTC) disaster on August 21, 2002.
(see footnote 1) This WTC Investigation was then
conducted under the authority of the National Construction Safety Team
(NCST) Act, which was signed into law on October 1, 2002.
The goals of the investigation of the WTC disaster
were:
To investigate the building construction, the materials used, and the
technical conditions that contributed to the outcome of the WTC disaster after
terrorists flew large jet-fuel laden commercial airliners into the WTC towers.
To serve as the basis for:
— Improvements in the way buildings are designed,
constructed, maintained, and used;
— Improved tools and guidance for industry and safety officials;
— Recommended revisions to current codes, standards, and practices; and
— Improved public safety.
The specific objectives were:
1. Determine why and how WTC 1 and WTC 2 collapsed following the initial
impacts of the aircraft and why and how WTC 7 collapsed;
2. Determine why the injuries and fatalities were so high or low depending
on location, including all technical aspects of fire protection, occupant
behavior, evacuation, and emergency response;
3. Determine what procedures and practices were used in the design,
construction, operation, and maintenance of WTC 1, 2, and 7.
4. Identify, as specifically as possible, areas in current building and
fire codes, standards, and practices that warrant revision.
APPROACH
To meet
these goals, NIST complemented its in-house expertise with an array of
specialists in key technical areas. In all, over 200 staff contributed to the
investigation. NIST and its contractors compiled and reviewed tens of thousand
of pages of documents; conducted interviews with over a thousand people who had
been on the scene or who had been involved with the design, construction, and
maintenance of the WTC; analyzed 236 pieces of steel that were obtained from
the wreckage; performed laboratory tests that measured material properties, and
performed computer simulations of the sequence of events that happened from the
instant of aircraft impact to the initiation of collapse for each tower.
Cooperation in obtaining the resource materials and in
interpreting the results came from a large number of individuals and
organizations, including The Port Authority of New York and New Jersey and its
contractors and consultants, Silverstein Properties and its contractors and
consultants, the City of New York and its departments, the manufacturers and
fabricators of the building components, the companies that insured the WTC
towers, the building tenants, the aircraft manufacturers, the airlines, and the
media.
The scarcity of physical evidence that is typically
available in place for reconstruction of a disaster led to the following
approach:
Accumulation of copious photographic and video material. With the
assistance of the media, public agencies and individual photographers, NIST
acquired and organized nearly 7,000 segments of video footage, totaling in
excess of 150 hours and nearly 7,000 photographs representing at least 185
photographers. This guided the Investigation Team’s efforts to determine the
condition of the buildings following the aircraft impact, the evolution of the
fires, and the subsequent deterioration of the structure.
Establishment of the baseline performance of the WTC towers, i.e.,
estimating the expected performance of the towers under normal design loads and
conditions. The baseline performance analysis also helped to estimate the
ability of the towers to withstand the unexpected events of September 11, 2001.
Establishing the baseline performance of the towers began with the compilation
and analysis of the procedures and practices used in the design, construction,
operation, and maintenance of the structural, fire protection, and egress
systems of the WTC towers. The additional components of the performance
analysis were the standard fire resistance of the WTC truss-framed floor
system, the quality and properties of the structural steels used in the towers,
and the response of the WTC towers to the design gravity and wind loads.
Conduct simulations of the behavior of each tower on September 11, 2001,
in four steps:
1. The aircraft impact into the tower, the resulting distribution of
aviation fuel, and the damage to the structure, partitions, thermal insulation
materials, and building contents.
2. The evolution of multi-floor fires.
3. The heating and consequent weakening of the structural elements by the
fires.
4. The response of the damaged and heated building structure, and the
progression of structural component failures leading to the initiation of the
collapse of the towers.
For such complex structures and complex thermal and
structural processes, each of these steps stretched the state of the technology
and tested the limits of software tools and computer hardware. For example, the
investigators advanced the state-of-the-art in the measurement of construction
material properties and in structural finite element modeling. New modeling
capability was developed for the mapping of fire-generated environmental
temperatures onto the building structural components.
The output of the four-step simulations was subject to
uncertainties in the as-built condition of the towers, the interior layout and
furnishings, the aircraft impact, the internal damage to the towers (especially
the thermal insulation for fire protection of the structural steel, which is
colloquially referred to as fireproofing), the redistribution of the
combustibles, and the response of the building structural components to the
heat from the fires. To increase confidence in the simulation results, NIST
used the visual evidence, eyewitness accounts from inside and outside the
buildings, laboratory tests involving large fires and the heating of structural
components, and formal statistical methods to identify influential parameters
and quantify the variability in analysis results.
Combination of the knowledge gained into probable collapse sequences for
each tower,
(see footnote 2) the identification of factors that
contributed to the collapse, and a list of factors that could have improved
building performance or otherwise mitigated the loss of life.
Compilation of a list of findings that respond to the first three
objectives and a list of recommendations that responds to the fourth objective.
SUMMARY OF FINDINGS
Objective 1: Determine why and how WTC 1 and WTC 2 collapsed following the
initial impacts of the aircraft.
The two aircraft hit the towers at high speed and did considerable damage
to principal structural components (core columns, floors, and perimeter
columns) that were directly impacted by the aircraft or associated debris.
However, the towers withstood the impacts and would have remained standing were
it not for the dislodged insulation (fireproofing) and the subsequent
multi-floor fires. The robustness of the perimeter frame-tube system and the
large size of the buildings helped the towers withstand the impact. The
structural system redistributed loads from places of aircraft impact, avoiding
larger scale damage upon impact. The hat truss, a feature atop each tower which
was intended to support a television antenna, prevented earlier collapse of the
building core. In each tower, a different combination of impact damage and
heat-weakened structural components contributed to the abrupt structural
collapse.
In WTC 1, the fires weakened the core columns and caused the floors on
the south side of the building to sag. The floors pulled the heated south
perimeter columns inward, reducing their capacity to support the building
above. Their neighboring columns quickly became overloaded as columns on the
south wall buckled. The top section of the building tilted to the south and
began its descent. The time from aircraft impact to collapse initiation was
largely determined by how long it took for the fires to weaken the building
core and to reach the south side of the building and weaken the perimeter
columns and floors.
In WTC 2, the core was damaged severely at the southeast corner and was
restrained by the east and south walls via the hat truss and the floors. The
steady burning fires on the east side of the building caused the floors on that
side to sag. The floors pulled the heated east perimeter columns inward,
reducing their capacity to support the building above. Their neighboring
columns quickly became overloaded as columns on the east wall buckled. The top
section of the building tilted to the east and to the south and began its
descent. The time from aircraft impact to collapse initiation was largely
determined by the time needed for the fires to weaken the perimeter columns and
floor assemblies on the east and the south sides of the building. WTC 2
collapsed more quickly than WTC 1 because there was more aircraft damage to the
building core, including one of the heavily loaded corner columns, and there
were early and persistent fires on the east side of the building, where the
aircraft had extensively dislodged insulation from the structural steel.
The WTC towers likely would not have collapsed under the combined effects
of aircraft impact damage and the extensive, multi-floor fires that were
encountered on September 11, 2001 if the thermal insulation had not been widely
dislodged or had been only minimally dislodged by aircraft impact.
NIST found no corroborating evidence for alternative hypotheses
suggesting that the WTC towers were brought down by controlled demolition using
explosives planted prior to September 11, 2001. NIST also did not find any
evidence that missiles were fired at or hit the towers. Instead, photographs
and videos from several angles clearly showed that the collapse initiated at
the fire and impact floors and that the collapse progressed from the initiating
floors downward, until the dust clouds obscured the view.
Objective 2: Determine why the injuries and fatalities were so high or low
depending on location, including all technical aspects of fire protection,
occupant behavior, evacuation, and emergency response.
Approximately 87 percent of the estimated 17,400 occupants of the towers,
and 99 percent of those located below the impact floors, evacuated
successfully. In WTC 1, where the aircraft destroyed all escape routes, 1,355
people were trapped in the upper floors when the building collapsed. One
hundred seven people who were below the impact floors did not survive. Since
the flow of people from the building had slowed considerably 20 minutes before
the tower collapsed, the stairwell capacity was adequate to evacuate the
occupants on that morning.
In WTC 2, before the second aircraft strike, about 3,000 people got low
enough in the building to escape by a combination of self-evacuation and use of
elevators. The aircraft destroyed the operation of the elevators and the use of
two of the three stairways. Eighteen people from above the impact zone found a
passage through the damaged third stairway (Stairwell A) and escaped. The other
619 people in or above the impact zone perished. Eleven people who were below
the impact floors did not survive. As in WTC 1, shortly before collapse, the
flow of people from the building had slowed considerably, indicating that the
stairwell capacity was adequate that morning.
About six percent of the survivors described themselves as mobility
impaired, with recent injury and chronic illness being the most common causes;
few, however, required a wheelchair. Among the 118 decedents below the aircraft
impact floors, investigators identified seven who were mobility impaired, but
were unable to determine the mobility capability of the remaining 111.
A principal factor limiting the loss of life was that the buildings were
only one-third to one-half occupied at the time of the attacks. NIST estimated
that if the towers had been fully occupied with 20,000 occupants each, it would
have taken just over 3 hours to evacuate the buildings and about 14,000 people
might have perished because the stairwell capacity would not have been
sufficient to evacuate that many people in the available time. Egress capacity
required by current building codes is determined by single floor calculations
that are independent of building height and does not consider the time for full
building evacuation.
Due to the presence of assembly use spaces at the top of each tower
(Windows on the World restaurant complex in WTC 1 and the Top of the Deck
observation deck in WTC 2) that were designed to accommodate over 1,000
occupants per floor, the New York City Building Code would have required a
minimum of four independent means of egress (stairs), one more than the three
that were available in the buildings. Given the low occupancy level on
September 11, 2001, NIST found that the issue of egress capacity from these
places of assembly, or from elsewhere in the buildings, was not a significant
factor on that day. It is conceivable that such a fourth stairwell, depending
on its location and the effects of aircraft impact on its functional integrity,
could have remained passable, allowing evacuation by an unknown number of
additional occupants from above the floors of impact. If the buildings had been
filled to their capacity with 20,000 occupants, however, the required fourth
stairway would likely have mitigated the insufficient egress capacity for
conducting a full building evacuation within the available time.
Evacuation was assisted by participation in fire drills within the
previous year by two-thirds of survivors and perhaps hindered by a Local Law
that prevented employers from requiring occupants to practice using the
stairways. The stairways were not easily navigated in some locations due to
their design, which included ”transfer hallways,” where evacuees had to
traverse from one stairway to another location where the stairs continued.
Additionally, many occupants were unprepared for the physical challenge of full
building evacuation.
The functional integrity and survivability of the stairwells was affected
by the separation of the stairwells and the structural integrity of stairwell
enclosures. In the impact region of WTC 1, the stairwell separation was the
smallest over the building height—clustered well within the building core—and
all stairwells were destroyed by the aircraft impact. By contrast, the
separation of stairwells in the impact region of WTC 2 was the largest over the
building height—located along different boundaries of the building core—and one
of three stairwells remained marginally passable after the aircraft impact. The
shaft enclosures were fire rated but were not required to have structural
integrity under typical accidental loads: there were numerous reports of
stairwells obstructed by fallen debris from damaged enclosures.
The active fire safety systems (sprinklers, smoke purge, fire alarms, and
emergency occupant communications) were designed to meet or exceed current
practice. However, with the exception of the evacuation announcements, they
played no role in the safety of life on September 11 because the water supplies
to the sprinklers were damaged by the aircraft impact. The smoke purge systems,
operated under the direction of the fire department after fires, were not
turned on, but they also would have been ineffective due to aircraft damage.
The violence of the aircraft impact served as its own alarm. In WTC 2, contradictory
public address announcements contributed to occupant confusion and some delay
in occupants beginning to evacuate.
For the approximately 1,000 emergency responders on the scene, this was
the largest disaster they had even seen. Despite attempts by the responding
agencies to work together and perform their own tasks, the extent of the
incident was well beyond their capabilities. Communications were erratic due to
the high number of calls and the inadequate performance of some of the gear.
Even so, there was no way to digest, test for accuracy, and disseminate the
vast amount of information being received. Their jobs were complicated by the
loss of command centers in WTC 7 and then in the towers after WTC 2 collapsed.
With nearly all elevator service disrupted and progress up the stairs taking
about two min. per floor, it would have taken hours for the responders to reach
their destinations, assist survivors, and escape had the towers not collapsed.
Objective 3: Determine what procedures and practices were used in the
design, construction, operation, and maintenance of WTC 1 and WTC 2.
Because of The Port Authority’s establishment under a clause of the
United States Constitution, its buildings were not subject to any state or
local building regulations. The buildings were unlike any others previously
built, both in their height and in their innovative structural features.
Nevertheless, the actual design and approval process produced two buildings
that generally were consistent with nearly all of the provisions of the New
York City Building Code and other building codes of that time that were
reviewed by NIST. The loads for which the buildings were designed exceeded the
New York City code requirements. The quality of the structural steels was
consistent with the building specifications. The departures from the building
codes and standards identified by NIST did not have a significant effect on the
outcome of September 11.
For the floor systems, the
fire rating and insulation thickness used on the floor trusses, which together
with the concrete slab served as the main source of support for the floors,
were of concern from the time of initial construction. NIST found no technical
basis or test data on which the thermal protection of the steel was based. On
September 11, 2001, the minimum specified thickness of the insulation was
adequate to delay heating of the trusses; the amount of insulation dislodged by
the aircraft impact, however, was sufficient to cause the structural steel to
be heated to critical levels.
Based on four standard fire resistance tests that were conducted under a
range of insulation and test conditions, NIST found the fire rating of the
floor system to vary between j hour and two hours; in all cases, the floors
continued to support the full design load without collapse for over two hours.
The wind loads used for the WTC towers, which governed the structural
design of the external columns and provided the baseline capacity of the
structures to withstand abnormal events such as major fires or impact damage,
significantly exceeded the requirements of the New York City Building Code and
other building codes of the day that were reviewed by NIST. Two sets of wind
load estimates for the towers obtained by independent commercial consultants in
2002, however, differed by as much as 40 percent. These estimates were based on
wind tunnel tests conducted as part of insurance litigation unrelated to the
Investigation.
RECOMMENDATIONS
The tragic consequences of the September 11, 2001,
attacks were directly attributable to the fact that terrorists flew large
jet-fuel laden commercial airliners into the WTC towers. Buildings for use by
the general population are not designed to withstand attacks of such severity;
building regulations do not require building designs to consider aircraft
impact. In our cities, there has been no experience with a disaster of such
magnitude, nor has there been any in which the total collapse of a high-rise
building occurred so rapidly and with little warning.
While there were unique aspects to the design of the
WTC towers and the terrorist attacks of September 11, 2001, NIST has compiled a
list of recommendations to improve the safety of tall buildings, occupants, and
emergency responders based on its investigation of the procedures and practices
that were used for the WTC towers; these procedures and practices are commonly
used in the design, construction, operation, and maintenance of buildings under
normal conditions. Public officials and building owners will need to determine
appropriate performance requirements for those tall buildings, and selected
other buildings, that are at higher risk due to their iconic status, critical
function, or design.
The topics of the recommendations in eight groups are
listed in Table 1. A complete listing of the 30 recommendations is provided in
Appendix A. The ordering does not reflect any priority.
The eight major groups of recommendations are:
Increased Structural Integrity: The standards for estimating the
load effects of potential hazards (e.g., progressive collapse, wind) and the
design of structural systems to mitigate the effects of those hazards should be
improved to enhance structural integrity.
Enhanced Fire Endurance of Structures: The procedures and
practices used to ensure the fire endurance of structures should be enhanced by
improving the technical basis for construction classifications and fire
resistance ratings, improving the technical basis for standard fire resistance
testing methods, use of the ”structural frame” approach to fire resistance
ratings, and developing in-service performance requirements and conformance
criteria for sprayed fire-resistive material.
New Methods for Fire Resistant Design of Structures: The
procedures and practices used in the fire resistant design of structures should
be enhanced by requiring an objective that uncontrolled fires result in burnout
without local or global collapse. Performance-based methods are an alternative
to prescriptive design methods. This effort should include the development and
evaluation of new fire resistive coating materials and technologies and
evaluation of the fire performance of conventional and high-performance
structural materials.
Improved Active Fire Protection: Active fire protection systems
(i.e., sprinklers, standpipes/hoses, fire alarms, and smoke management systems)
should be enhanced through improvements to design, performance, reliability,
and redundancy of such systems.
Improved Building Evacuation: Building evacuation should be
improved to include system designs that facilitate safe and rapid egress,
methods for ensuring clear and timely emergency communications to occupants,
better occupant preparedness for evacuation during emergencies, and
incorporation of appropriate egress technologies.
Improved Emergency Response: Technologies and procedures for
emergency response should be improved to enable better access to buildings,
response operations, emergency communications, and command and control in
large-scale emergencies.
Improved Procedures and Practices: The procedures and practices
used in the design, construction, maintenance, and operation of buildings
should be improved to include encouraging code compliance by non-governmental
and quasi-governmental entities, adoption and application of egress and
sprinkler requirements in codes for existing buildings, and retention and
availability of building documents over the life of a building.
Education and Training: The professional skills of building and
fire safety professionals should be upgraded though a national education and
training effort for fire protection engineers, structural engineers,
architects, regulatory personnel, and emergency responders.
The recommendations call for action by specific
entities regarding standards, codes and regulations, their adoption and
enforcement, professional practices, education, and training; and research and
development. Only when each of the entities carries out its role will the
implementation of a recommendation be effective.
The recommendations do not prescribe specific systems,
materials, or technologies. Instead, NIST encourages competition among
alternatives that can meet performance requirements. The recommendations also
do not prescribe specific threshold levels; NIST believes that this
responsibility properly falls within the purview of the public policy setting
process, in which the standards and codes development process plays a key role.
NIST believes the recommendations are realistic and
achievable within a reasonable period of time. Only a few of the
recommendations call for new requirements in standards and codes. Most of the
recommendations deal with improving an existing standard or code requirement,
establishing a standard for an existing practice without one, establishing the
technical basis for an existing requirement, making a current requirement
risk-consistent, adopting or enforcing a current requirement, or establishing a
performance-based alternative to a current prescriptive requirement.
NEXT STEPS
We have strongly urged that immediate and serious
consideration be given to these recommendations by the building and fire safety
communities in order to achieve appropriate improvements in the way buildings
are designed, constructed, maintained, and used and in evacuation and emergency
response procedures-with the goal of making buildings, occupants, and first
responders safer in future emergencies.
We are also strongly urging building owners and public
officials to (1) evaluate the safety implications of these recommendations to
their existing inventory of buildings and (2) take the steps necessary to mitigate
any unwarranted risks without waiting for changes to occur in codes, standards,
and practices.
We are urging state and local agencies to rigorously
enforce building codes and standards since such enforcement is critical to
ensure the expected level of safety. Unless they are complied with, the best
codes and standards cannot protect occupants, emergency responders, or
buildings.
I have assigned top priority for NIST staff to work
vigorously with the building and fire safety communities to assure that there
is a complete understanding of the recommendations and to provide needed
technical assistance in getting the recommendations implemented. We have
identified specific codes, standards, and practices affected by each of the
recommendations in its summary report for the WTC towers and already begun to
reach out to the responsible organizations to pave the way for a timely,
expedited consideration of the recommendations. Toward this end, we held a
conference September 13–15, 2005 that was attended by over 200 people,
including all of the major standards and codes development organizations.
We have also awarded a contract to the National
Institute of Building Sciences (NIBS) to turn many of the recommendations into
code language suitable for submission of code change proposals to the two
national model code developers.
In addition, we will implement a web-based system so
that the public can track progress on implementing the recommendations. The web
site will list each of the recommendations, the specific organization or
organizations (e.g., standards and code developers, professional groups, state
and local authorities) responsible for its implementation, the status of its
implementation by organization, and the plans or work in progress to implement
the recommendations.
We are releasing the final versions of the 43 reports
on NIST’s investigation of the WTC towers, totaling some 10,000 pages, today.
Our current plans are to release next spring an additional five reports as
drafts for public comment on the investigation of WTC 7.
Mr. Chairman, I want to thank you and the Committee
again for allowing me to testify today about NIST’s building and fire safety
investigation of the World Trade Center disaster. I would be happy to answer
any questions at this time.
24133m.eps
24133n.eps
Appendix A. List of Recommendations
Group 1. Increased Structural Integrity
The standards for estimating the load effects of potential hazards (e.g.,
progressive collapse, wind) and the design of structural systems to mitigate
the effects of those hazards should be improved to enhance structural
integrity.
Recommendation 1. NIST recommends that: (1) progressive collapse be
prevented in buildings through the development and nationwide adoption of
consensus standards and code provisions, along with the tools and guidelines
needed for their use in practice; and (2) a standard methodology be
developed—supported by analytical design tools and practical design guidance—to
reliably predict the potential for complex failures in structural
systems subjected to multiple hazards.
Recommendation 2. NIST recommends that nationally accepted performance
standards be developed for: (1) conducting wind tunnel testing of
prototype structures based on sound technical methods that result in repeatable
and reproducible results among testing laboratories; and (2) estimating wind
loads and their effects on tall buildings for use in design, based on wind
tunnel testing data and directional wind speed data.
Recommendation 3. NIST recommends that an appropriate criterion be
developed and implemented to enhance the performance of tall buildings by limiting
how much they sway under lateral load design conditions (e.g., winds and
earthquakes).
Group 2. Enhanced Fire Endurance of
Structures
The procedures and practices used to ensure the fire
endurance of structures be enhanced by improving the technical basis for
construction classifications and fire resistance ratings, improving the
technical basis for standard fire resistance testing methods, use of the
”structural frame” approach to fire resistance ratings, and developing
in-service performance requirements and conformance criteria for sprayed
fire-resistive materials.
Recommendation 4. NIST recommends evaluating, and where needed
improving, the technical basis for determining appropriate construction
classification and fire rating requirements (especially for tall buildings)—and
making related code changes now as much as possible—by explicitly considering
factors including:
timely access by emergency responders and full evacuation of
occupants, or the time required for burnout without local collapse;
the extent to which redundancy in active fire protection
(sprinkler and standpipe, fire alarm, and smoke management) systems should be
credited for occupant life safety;
the need for redundancy in fire protection systems that are
critical to structural integrity;
the ability of the structure and local floor systems to withstand a maximum
credible fire scenario without collapse, recognizing that sprinklers could
be compromised, not operational, or non-existent;
compartmentation requirements (e.g., 12,000 ft
(see footnote 3)) to protect the structure,
including fire rated doors and automatic enclosures, and limiting air supply
(e.g., thermally resistant window assemblies) to retard fire spread in
buildings with large, open floor plans;
the effect of spaces containing unusually large fuel concentrations for
the expected occupancy of the building; and
the extent to which fire control systems, including suppression by
automatic or manual means, should be credited as part of the prevention of fire
spread.
Recommendation 5. NIST recommends that the technical basis for the
century-old standard for fire resistance testing of components,
assemblies, and systems be improved through a national effort. Necessary
guidance also should be developed for extrapolating the results of tested
assemblies to prototypical building systems. A key step in fulfilling this
recommendation is to establish a capability for studying and testing the
components, assemblies, and systems under realistic fire and load conditions.
Recommendation 6. NIST recommends the development of criteria, test
methods, and standards: (1) for the in-service performance of sprayed
fire-resistive materials (SFRM, also commonly referred to as fireproofing or
insulation) used to protect structural components; and (2) to ensure that these
materials, as-installed, conform to conditions in tests used to
establish the fire resistance rating of components, assemblies, and systems.
Recommendation 7. NIST
recommends the adoption and use of the ”structural frame” approach to fire
resistance ratings. This approach requires that structural members—such as
girders, beams, trusses and spandrels having direct connection to the columns,
and bracing members designed to carry gravity loads—be fire protected to the
same fire resistance rating as columns.
Group 3. New Methods for Fire Resistant Design of Structures
The procedures and practices used in the fire
resistant design of structures should be enhanced by requiring an objective
that uncontrolled fires result in burnout without partial or global (total)
collapse. Performance-based methods are an alternative to prescriptive design
methods. This effort should include the development and evaluation of new fire-resistive
coating materials and technologies and evaluation of the fire performance of
conventional and high-performance structural materials.
Recommendation 8. NIST recommends that the fire resistance of structures
be enhanced by requiring a performance objective that uncontrolled building
fires result in burnout without partial or global (total) collapse.
Recommendation 9. NIST recommends the development of: (1)
performance-based standards and code provisions, as an alternative to current
prescriptive design methods, to enable the design and retrofit of structures to
resist real building fire conditions, including their ability to achieve the
performance objective of burnout without structural or local floor collapse:
and (2) the tools, guidelines, and test methods necessary to evaluate the fire
performance of the structure as a whole system.
Recommendation 10. NIST recommends the development and evaluation of new
fire-resistive coating materials, systems, and technologies with
significantly enhanced performance and durability to provide protection
following major events.
Recommendation 11. NIST recommends that the performance and suitability
of advanced structural steel, reinforced and pre-stressed concrete, and other
high-performance material systems be evaluated for use under conditions
expected in building fires.
Group 4. Improved Active Fire Protection
Active fire protection systems (i.e., sprinklers,
standpipes/hoses, fire alarms, and smoke management systems) should be enhanced
through improvements to design, performance, reliability, and redundancy of
such systems.
Recommendation 12. NIST recommends that the performance and possibly the
redundancy of active fire protection systems (sprinklers, standpipes/hoses,
fire alarms, and smoke management systems) in buildings be enhanced to
accommodate the greater risks associated with increasing building height
and population, increased use of open spaces, high-risk building activities,
fire department response limits, transient fuel loads, and higher threat
profile.
Recommendation 13. NIST recommends that fire alarm and communications
systems in buildings be developed to provide continuous, reliable, and accurate
information on the status of life safety conditions at a level of detail
sufficient to manage the evacuation process in building fire
emergencies; all communication and control paths in buildings need to be
designed and installed to have the same resistance to failure and increased
survivability above that specified in present standards.
Recommendation 14. NIST recommends that control panels at fire/emergency
command stations in buildings be adapted to accept and interpret a larger
quantity of more reliable information from the active fire protection systems
that provide tactical decision aids to fireground commanders, including
water flow rates from pressure and flow measurement devices, and that standards
for their performance be developed.
Recommendation 15. NIST recommends that systems be developed and
implemented for: (1) real-time off-site secure transmission of valuable
information from fire alarm and other monitored building systems for use by
emergency responders, at any location, to enhance situational awareness and
response decisions and maintain safe and efficient operations; and (2)
preservation of that information either off-site or in a black box that will
survive a fire or other building failure for purposes of subsequent
investigations and analysis. Standards for the performance of such systems
should be developed, and their use should be required.
Group 5. Improved Building Evacuation
Building evacuation should be improved to include
system designs that facilitate safe and rapid egress, methods for ensuring
clear and timely emergency communications to occupants, better occupant
preparedness regarding their roles and duties for evacuation during
emergencies, and incorporation of appropriate egress technologies.
Recommendation 16. NIST recommends that public agencies, non-profit
organizations concerned with building and fire safety, and building owners and
managers develop and carry out public education and training campaigns, jointly
and on a nationwide scale, to improve building occupants’ preparedness for
evacuation in case of building emergencies.
Recommendation 17. NIST recommends that tall buildings be designed to
accommodate timely full building evacuation of occupants due to
building-specific or large-scale emergencies such as widespread power outages,
major earthquakes, tornadoes, hurricanes without sufficient advanced warning,
fires, explosions, and terrorist attack. Building size, population, function,
and iconic status should be taken into account in designing the egress system.
Stairwell capacity and stair discharge door width should be adequate to
accommodate counterflow due to emergency access by responders.
Recommendation 18. NIST recommends that egress systems be designed: (1)
to maximize remoteness of egress components (i.e., stairs, elevators,
exits) without negatively impacting the average travel distance; (2) to
maintain their functional integrity and survivability under foreseeable
building-specific or large-scale emergencies; and (3) with consistent layouts,
standard signage, and guidance so that systems become intuitive and obvious to
building occupants during evacuations.
Recommendation 19. NIST recommends that building owners, managers, and
emergency responders develop a joint plan and take steps to ensure that
accurate emergency information is communicated in a timely manner to
enhance the situational awareness of building occupants and emergency
responders affected by an event. This should be accomplished through better
coordination of information among different emergency responder groups,
efficient sharing of that information among building occupants and emergency
responders, more robust design of emergency public address systems, improved
emergency responder communication systems, and use of the Emergency Broadcast
System (now known as the Integrated Public Alert and Warning System) and
Community Emergency Alert Networks.
Recommendation 20. NIST recommends that the full range of current and next
generation evacuation technologies should be evaluated for future use,
including protected/hardened elevators, exterior escape devices, and stairwell
descent devices, which may allow all occupants an equal opportunity for
evacuation and facilitate emergency response access.
Group 6. Improved Emergency Response
Technologies and procedures for emergency response
should be improved to enable better access to buildings, response operations,
emergency communications, and command and control in large-scale emergencies.
Recommendation 21. NIST recommends the installation of fire-protected
and structurally hardened elevators to improve emergency response
activities in tall buildings by providing timely emergency access to responders
and allowing evacuation of mobility impaired building occupants. Such elevators
should be installed for exclusive use by emergency responders during
emergencies. In tall buildings, consideration also should be given to
installing such elevators for use by all occupants. The use of elevators for
these purposes will require additional operating procedures and protocols, as
well as a requirement for release of elevator door restrictors by emergency
response personnel.
Recommendation 22. NIST recommends the installation, inspection, and
testing of emergency communications systems, radio communications, and
associated operating protocols to ensure that the systems and protocols:
(1) are effective for large-scale emergencies in buildings with challenging
radio frequency propagation environments; and (2) can be used to identify,
locate, and track emergency responders within indoor building environments and
in the field. The Federal Government should coordinate its efforts that address
this need within the framework provided by the SAFECOM program of the
Department of Homeland Security.
Recommendation 23. NIST recommends the establishment and implementation
of detailed procedures and methods for gathering, processing, and delivering
critical information through integration of relevant voice, video,
graphical, and written data to enhance the situational awareness of all
emergency responders. An information intelligence sector
(see footnote 4) should be established to coordinate
the effort for each incident.
Recommendation 24. NIST recommends the establishment and implementation
of codes and protocols for ensuring effective and uninterrupted operation of
the command and control system for large-scale building emergencies.
Group 7. Improved Procedures and Practices
The procedures and practices used in the design,
construction, maintenance, and operation of buildings should be improved to
include encouraging code compliance by nongovernmental and quasi-governmental
entities, adoption and application of egress and sprinkler requirements in
codes for existing buildings, and retention and availability of building
documents over the life of a building.
Recommendation 25. Non-governmental and quasi-governmental entities
that own or lease buildings—and are not subject to building and fire safety
code requirements of any governmental jurisdiction—should provide a level of
safety that equals or exceeds the level of safety that would be provided by
strict compliance with the code requirements of an appropriate governmental
jurisdiction. To gain broad public confidence in the safety of such buildings,
NIST further recommends that as-designed and as-built safety be certified by
a qualified third party, independent of the building owner(s). The process should
not use self-approval for code enforcement in areas including
interpretation of code provisions, design approval, product acceptance,
certification of the final construction, and post-occupancy inspections over
the life of the buildings.
Recommendation 26. NIST recommends that state and local jurisdictions
adopt and aggressively enforce available provisions in building codes to
ensure that egress and sprinkler requirements are met by existing
buildings. Further, occupancy requirements should be modified where needed
(such as when there are assembly use spaces within an office building) to meet
the requirements in model building codes.
Recommendation 27. NIST recommends that building codes should
incorporate a provision that requires building owners to retain documents, including
supporting calculations and test data, related to building design,
construction, maintenance and modifications over the entire life of the
building.
(see footnote 5) Means should be developed for
offsite storage and maintenance of the documents. In addition, NIST recommends
that relevant building information should be made available in suitably
designed hard copy or electronic format for use by emergency responders. Such
information should be easily accessible by responders during emergencies.
Recommendation 28. NIST recommends that the role of the ”Design
Professional in Responsible Charge”
(see footnote 6) be clarified to ensure that: (1) all
appropriate design professionals (including, e.g., the fire protection
engineer) are part of the design team providing the standard of care when
designing buildings employing innovative or unusual fire safety systems, and
(2) all appropriate design professionals (including, e.g., the
structural engineer and the fire protection engineer) are part of the design
team providing the standard of care when designing the structure to resist
fires, in buildings that employ innovative or unusual structural and fire
safety systems.
Group 8. Education and Training
The professional skills of building and fire safety professionals
should be upgraded though a national education and training effort for fire
protection engineers, structural engineers, and architects. The skills of the
building regulatory and fire service personnel should also be upgraded to
provide sufficient understanding and the necessary skills to conduct the
review, inspection, and approval tasks for which they are responsible.
Recommendation 29. NIST recommends that continuing education
curricula be developed and programs should be implemented for (1) training
fire protection engineers and architects in structural engineering principles
and design, and (2) training structural engineers, architects, fire protection
engineers, and code enforcement officials in modern fire protection principles
and technologies, including fire-resistance design of structures, and (3)
training building regulatory and fire service personnel to upgrade their
understanding and skills to conduct the review, inspection, and approval tasks
for which they are responsible.
Recommendation 30. NIST recommends that academic, professional
short-course, and web-based training materials in the use of computational fire
dynamics and thermostructural analysis tools be developed and delivered to
strengthen the base of available technical capabilities and human resources.
BIOGRAPHY FOR WILLIAM JEFFREY
William Jeffrey is the 13th Director of the National
Institute of Standards and Technology (NIST), sworn into the office on July 26,
2005. He was nominated by President Bush on May 25, 2005, and confirmed by the
U.S. Senate on July 22, 2005.
As Director of NIST, Dr. Jeffrey oversees an array of
programs that support U.S. industry and science with measurement research,
standards, technology, and technical assistance that strengthen the Nation’s
innovation infrastructure and competitiveness. The goal is to improve
manufacturing, services, trade, safety and security, and quality of life.
Operating in fiscal year 2005 on a budget of about $858 million, NIST is
headquartered in Gaithersburg, Md., and has additional laboratories in Boulder,
Colo. NIST also jointly operates research organizations in three locations,
which support world-class physics, cutting-edge biotechnology, and environmental
research. NIST employs about 3,000 scientists, engineers, technicians, and
support personnel. An agency of the U.S. Commerce Department’s Technology
Administration, NIST has extensive cooperative research programs with industry,
academia, and other government agencies. Its staff is augmented by about 1,600
visiting researchers.
Dr. Jeffrey has been involved in federal science and
technology programs and policy since 1988. Previous to his appointment to NIST
he served as Senior Director for homeland and national security and the
Assistant Director for space and aeronautics at the Office of Science and
Technology Policy (OSTP) within the Executive Office of the President. Earlier,
he was the Deputy Director for the Advanced Technology Office and Chief
Scientist for the Tactical Technology Office with the Defense Advanced Research
Projects Agency (DARPA). While at DARPA, Dr. Jeffrey advanced research programs
in communications, computer network security, novel sensor development, and
space operations.
Prior to joining DARPA, Dr. Jeffrey was the Assistant
Deputy for Technology at the Defense Airborne Reconnaissance Office, where he
supervised sensor development for the Predator and Global Hawk Unmanned Aerial
Vehicles and the development of common standards that allow for cross-service
and cross-agency transfer of imagery and intelligence products. He also spent
several years working at the Institute for Defense Analyses performing
technical analyses in support of the Department of Defense.
Dr. Jeffrey received his Ph.D. in astronomy from
Harvard University and his B.Sc. in physics from the Massachusetts Institute of
Technology.
Chairman BOEHLERT. Thank you very much, Doctor.
Thank you very much, Dr. Jeffrey. Ms. McNabb.
STATEMENT OF MS. NANCY MCNABB, DIRECTOR OF GOVERNMENT AFFAIRS, NATIONAL FIRE
PROTECTION ASSOCIATION
Ms. MCNABB. Good morning, Chairman Boehlert, and
Committee Members. My name is Nancy McNabb, and I am Director for Government
Affairs for NFPA, the National Fire Protection Association, headquartered in
Quincy, Massachusetts. I am an architect licensed in the great State of New
York, and was formerly the Assistant Director for Code Development and
Interpretation there. I appreciate the opportunity to address the Committee
this morning regarding the report of the National Construction Safety Team on
the collapse of the World Trade Center towers. Dr. Jeffrey and his team at the
NIST labs have done outstanding work.
NFPA is a 109-year-old private, nonprofit organization
whose mission is to reduce the burden of fire and other hazards on the quality
of life. We achieve that mission by advocating consensus, codes, and standards,
research, training, and education. We have approximately 79,000 members that
come from 80 nations around the world.
I am here today to affirm our support for the efforts
of NIST regarding their report. In most cases, resolution and implementation of
their recommendations will be a long-term process. We have provided the
Committee with copies of our detailed responses to the NIST study, portions of
which I will speak to today.
The NIST report, the second issued under the authority
of the National Construction Safety Team Act, shows that NIST is
committed to providing a high level of scientific data and a set of
recommendations for future consideration by codes and standards developers.
NFPA is pleased to see the work effort of NIST resulting in positions on many
controversial and sometimes unpopular subjects. However, the need to conduct
more research in numerous areas is clear.
The loss of the World Trade Center complex represents
an unusual set of building performance circumstances, both independent and
interdependent. Fundamental questions, such as why did each tower remain
standing after the initial impacts, what factors influenced the collapse of the
two towers, and what features either allowed so many occupants to escape, or
prevented occupants from escaping, now have some answers. Other difficult and
anguishing questions, such as what was the fate of mobility-impaired occupants,
and why were the local communication systems overwhelmed, and did this prevent
or delay evacuation warnings to the first responders, at least now have some
explanation.
In June of 2002, when the intensive three-year Federal
Building and Fire Safety Investigation of the World Trade Center Disaster was
initiated, our President and CEO, Jim Shannon, testified at a public hearing
held in New York City that outlined the NIST objectives for their work plan,
investigation approach, and intended outcomes. It would have been easy for the
Federal Government to simply say this was a one time extreme event, or we do
not or cannot design buildings for, or learn anything new from such
extraordinary events. But that would be contrary to how the U.S. conducts its
business, and how NFPA identifies needs and emerging issues for the development
of new and improved safety codes and standards. Let me assure you that NIST has
accomplished a great deal with their studies, analyses, and recommendations.
Even those skeptics and critics of NIST and its report
in the end chose to submit constructive comments. The National Construction
Safety Team Federal Advisory Committee, who provided guidance to NIST during
the investigation, the engineers and scientists from NIST who provided support
to this effort, and the group of private organizations who served as
contractors to NIST on various aspects of the project, are to be commended.
They have provided a convincing amount of evidence, rigorous analyses,
hypotheses, and confirmation.
One critical test of effectiveness of the World Trade
Center study will be what will happen with the 30 specific recommendations in
the final report. Some of them have already been implemented in several NFPA
codes. This was possible because of the open approach that NIST took with the
investigation. In particular, Dr. Sunder’s commitment to provide public
briefings, opportunities for input during media briefings and open meetings,
and making critical information available on the NIST World Trade Center
website. While some changes have been made, it is important to note that it is
likely that after a thorough and detailed analysis of the final
recommendations, there may not be sufficient data, detail, or compelling
evidence to promulgate a change to a particular safety code or standard.
For example, the ongoing debate about whether building
regulations should address events associated with normal building hazards or
more extreme events such as hostile acts and explosions, and what category of
buildings should have these unique measures imposed upon them, will have to be
settled before consensus is reached on many of the recommendations and
findings.
Because of this study, NFPA codes and standards have
been changed to include a number of things. A few are hourly fire resistance
ratings of three and four-hour duration for tall buildings, requirements for
wider stairs to address counterflow issues based on occupant load, and
integration of performance-based design options. A number of long-term
initiatives are also underway to address other subjects, including the
protocols used to evaluate the performance of building structural systems under
fire conditions. Although NIST has not indicated that the current procedures
are inadequate, a review of the test methods and structural system evaluations
is warranted.
One recommendation that should receive a high priority
is the consideration for elevator use in high rise emergency evacuations. NIST
has led the effort in this area, with participation from the private sector, to
establish the circumstances and criteria for making this a reality. And again,
I have given you some of NFPA’s comments on NIST’s report, and a list of the
changes already affected by NFPA.
Beyond this, several of the recommendations refer to
specific identification and quantification of multiple threats or hazards. This
implies the need for risk and hazard analyses, and the utilization of
performance-based design techniques. Overall, NFPA supports these concepts for
building and fire regulations. However, the design of buildings, the assessment
of the existing building stock, and the preparation of emergency response
plans, must be an integral part of our collective mindset.
While NFPA recognizes the benefits of risk and hazard
analyses and performance-based design, we note that many of the tools and data
necessary to do this on a routine basis are not yet available, nor are they
sufficiently understood by all the parties that routinely make decisions about
building construction, occupant safety, and emergency responder operations. We
have to make sure that those who live or work in a high rise, those who design
and construct a high rise, and those that come to our aid in a high rise, are
aware of the limitations of our technology, procedures, and codes.
While it is too early to establish the lessons learned
from the report, we have made a significant start. We have much yet to be done.
Before we arrive at an appropriate best practices that will advance the level
of safety in the built environment, more evaluation is necessary.
I can assure you that NFPA will continue to be thorough
in reviewing, evaluating, and implementing those NIST recommendations that are
directed at the broad issue of public and first responder safety. After the
comprehensive study that NIST has provided to us, to learn nothing and do
nothing would be delinquent.
Likewise, it would be unthinkable if the private sector
fails to act with due regard for these recommendations, and if our government
institutions, such as the General Services Administration, fail to recognize
the opportunities to develop new building safety enhancements. NIST has
provided us with a public service and a tremendous resource. It will be up to
all of us to make certain that we do not waste this unique opportunity to ask ourselves
new questions, learn lessons, and develop better building safety codes and
standards.
Thank you again for allowing me the opportunity to
present the views of NFPA this morning. I will be happy to answer any questions
you may have.
[The prepared statement of Ms. McNabb follows:]
PREPARED STATEMENT OF NANCY MCNABB
Good morning Chairman Boehlert and Ranking Member
Gordon and Committee Members. My name is Nancy McNabb and I am the Director for
Government Affairs for NFPA (the National Fire Protection Association)
headquartered in Quincy, Massachusetts. I am a licensed architect and was
formerly the Assistant Director for Code Development and Interpretation for the
State of New York. I appreciate the opportunity to address the Committee this
morning regarding Report of the National Construction Safety Team on the
Collapse of the World Trade Center Towers. Dr. Shyam Sunder, Dr. William
Grosshandler and their teams at the NIST labs have done outstanding work.
NFPA is a 109-year-old, private, non-profit
organization whose mission is to reduce the burden of fire and other hazards on
the quality of life. We achieve that mission by advocating consensus codes and
standards, research, training and education. We have approximately 79,000
members that come from 80 nations around the world.
I am here today to affirm our support for the efforts
of NIST regarding their report. In most cases, resolution and implementation of
their recommendations will be a long-term process. We have provided the
Committee with copies of our detailed responses to the NIST study, portions of
which I will speak to today.
On September 11, 2001, we witnessed the most terrible
acts of violence ever committed in our country. The destruction of the WTC
towers, the large loss of life of building occupants and first responders
demands answers from the Federal Government. The first effort directed at this
loss included the Building Performance Study (BPS) that was conducted by FEMA.
NFPA participated as a team member in order to contribute to the collection,
observation and recommendations process surrounding the sequence of events and
triggering mechanisms that resulted in the catastrophic building failures and loss
of so many lives.
The FEMA study, completed in just eight months,
established a series of preliminary observations including credible theories,
hypotheses and a likely sequence of events that led to the progressive collapse
of WTC 1, 2 and 7. As thorough as the FEMA BPS report was, almost every
preliminary recommendation needed additional study. This committee recognized
the need to take action and passed the National Construction Safety Team Act
under Public Law 107–231 (NCSTA) in 2002 authorizing the National Institute of
Standards and Technology, NIST, as the responsible agency. Congress selected
the premier government scientific institution that has the capability,
resources and the capacity to conduct complex building loss investigations.
The report, the second issued under the authority of
the NCST, shows that NIST is committed to providing a high level of scientific
data and a set of recommendations for future consideration by codes and
standards developers. NFPA is pleased to see the work effort of NIST resulting
in positions on many controversial and sometimes, unpopular subjects. However,
the need to conduct more research in numerous areas is clear.
The loss of the WTC complex represents an unusual set
of building performance circumstances, both independent and interdependent. Fundamental
questions such as why did each tower remain standing after the initial aircraft
impacts, what factors influenced the collapse of the two towers and what
features either allowed so many occupants to escape or prevented occupants from
escaping now have some answers. Other difficult and anguishing questions such
as what was the fate of mobility impaired occupants, and why were the local
communication systems overwhelmed and did this prevent or delay evacuation
warnings to the first responders, at least now we have some explanation.
In June of 2002, when the intensive, three year Federal
Building and Fire Safety Investigation of the World Trade Center Disaster was
initiated, our President and CEO, Jim Shannon, testified at a public hearing
held in New York City that outlined the NIST objectives for their work plan,
investigation approach, and intended outcomes. It would have been easy for the
Federal Government to simply say ”This was a one time, extreme event,” or
”We do not, nor cannot design buildings for, or learn anything new from
such extraordinary events,” but that would be contrary to how the U.S.
conducts its business and how NFPA identifies needs and emerging issues for the
development of new and improved safety codes and standards. Let me assure you
that NIST has accomplished a great deal with their studies, analyses and
recommendations.
Even those skeptics and critics of NIST and its report
in the end chose to submit constructive comments. The NCST Federal Advisory
Committee, who provided guidance to NIST during the investigation, the
engineers and scientists from NIST who provided support to this effort, and the
group of private organizations who served as contractors to NIST on various
aspects of the project are to be commended. They have provided a convincing
amount of evidence, rigorous analyses, hypotheses and confirmation.
One critical test of the effectiveness of the WTC study
will be what will happen with the 30 specific recommendations in the final
report. Some of them have already been implemented in several NFPA codes. This
was possible because of the open approach that NIST took with the
investigation. In particular, Dr. Sunder’s commitment to provide public
briefings, opportunities for input during media briefings and open meetings and
making critical information available on the NIST WTC website. While some
changes have been made, it is important to note that it is likely, that after a
thorough and detailed analysis of the final recommendations, there may not be
sufficient data, detail or compelling evidence to promulgate a change to a
particular safety code or standard.
For example, the on-going debate about whether building
regulations should address events associated with normal building hazards, or
more extreme events such as hostile acts and explosions, and what category of
buildings should have these unique measures imposed on them, will have to be
settled before consensus is reached on many of the recommendations and
findings.
Because of this study, NFPA codes and standards have
been changed to include:
Integration of performance-based design options.
Retroactive requirements for installation of automatic sprinkler systems
in high rise buildings.
Hourly fire resistance ratings of three-hour and four-hour duration for
tall buildings.
Integration of the structural frame approach when determining fire
resistance ratings.
Requirements for wider stairs to address counterflow issues based on
occupant load.
Mandates for the Installation of stair descent devices for persons with
mobility impairments.
A number of long-term initiatives are also underway to
address other subjects including the protocols used to evaluate the performance
of building structural systems under fire conditions. Although NIST has not
indicated that the current procedures are inadequate, a review of the test
methods and structural system evaluations is warranted.
One recommendation that should receive a high priority
is the consideration for elevator use in high rise emergency evacuations. NIST
has led the effort in this area with participation the private sector to
establish the circumstances and criteria for making this a reality.
Exhibit A
provides you with NFPA’s comments to NIST’s NCSTAR1 Report; Exhibit B contains
a summary of changes already effected by NFPA because of the NIST study, or
that are in progress at some level.
Beyond this, several of the recommendations refer to
specific identification and quantification of multiple threats or hazards. This
implies the need for risk and hazard analyses, and the utilization of
performance-based design techniques. Overall, NFPA supports these concepts
building and fire regulations. However, the design of buildings, the assessment
of the existing building stock, and the preparation of emergency response
plans, must be an integral part of our collective mind set.
While NFPA recognizes the benefits of risk and hazard
analyses and performance-based design, we note that many of the tools and data
necessary to do this on a routine basis are not yet available. Nor are they
sufficiently understood by all parties that routinely make decisions about
building construction, occupant safety and emergency responder operations. We
have to make sure that those who live or work in a high rise, those who design
and construct a high rise and those that come to our aid in a high rise are
aware of the limitations of our technology, procedures and codes.
While it is too early to establish the lessons learned
from the report, we have made a significant start. We have much yet to be done.
Before we arrive at an appropriate ”best practices” that will advance the
level of safety in the built environment more evaluation is necessary.
I can assure you that NFPA will continue to be thorough
in reviewing, evaluating and implementing those NIST recommendations that are
directed at the broad issue of public and first responder safety. After the
comprehensive study that NIST has provided to us, to learn nothing and do
nothing would be delinquent.
Likewise, it would be unthinkable if the private sector
fails to act with due regard for these recommendations, and if our government
institutions, such as the General Services Administration, fail to recognize
the opportunities to develop new building safety enhancements. NIST has
provided us with a public service and a tremendous resource. It will be up to
all of us to make certain that we do not waste this unique opportunity to ask
ourselves new questions, learn lessons and develop better building safety codes
and standards.
Thank you again for allowing me the opportunity to
present the views of NFPA this morning. I will be happy to answer any questions
you may have.
24133o.eps
BIOGRAPHY FOR NANCY MCNABB
Nancy McNabb is the Director Government Affairs for the
National Fire Protection Association (NFPA) at their Government Affairs Office
in Washington, DC. She is responsible for working with congressional and
federal agencies as well as allied organizations to promote the NFPA mission
about fire and life safety. Ms. McNabb joined NFPA in September 2001 as the
regional manager, building code central field office, located in Dallas, TX.
Before joining NFPA, McNabb was a service coordinator
for Building Officials and Code Administrators (BOCA) International, where she
facilitated code adoptions, conducted trainings on code interpretations, and
represented the organization at legislative hearings. Previously, she served as
a staff architect for BOCA, working with building officials in New York State
and providing member services throughout the region. Nancy was also Assistant
Director for code development and code interpretation for the New York State
Department of State, codes division.
McNabb holds a Master’s degree in architecture in
structures and a Bachelor’s of science degree in architecture from the
University of Illinois at Champaign/Urbana, as well as a Bachelor’s degree in
fine arts from Bradley University. She is a registered architect in New York
and Pennsylvania.
Chairman BOEHLERT. Thank you very much. I
couldn’t agree more with you. To learn nothing and do nothing would be
delinquent. I can assure you this committee will not be delinquent.
Dr. Harris.
STATEMENT OF DR. JAMES R. HARRIS, PRESIDENT, J.R. HARRIS & COMPANY
Dr. HARRIS. Good morning. I am pleased to appear
on behalf of the Structural Engineering Institute of the American Society of
Civil Engineers as you consider these recommendations made by the National
Institute of Standards and Technology, arising from their study of the events
at the World Trade Center.
ASCE/SEI has a robust program of national voluntary
standards produced under a consensus process accredited by the American
National Standards Institute. Changes in some of our standards are already
underway that address a few of NIST’s recommendations, and we plan to give each
recommendation that is pertinent to the scope of our standards careful
consideration.
My name is
James Harris. I am President of a structural consulting firm in Denver,
Colorado. I have long been involved in the development of standards for
structural engineering practice here in the U.S. as well as internationally. I
have chaired the ASCE/SEI committee that prepares the standard ASCE 7 Minimum
Design Loads for Buildings and Other Structures for the last three editions. I
am also a member of the American Concrete Institute Committee that prepares the
standard for the design of building structures, and the American Institute of
Steel Construction Committee that prepares the standard for the design of steel
buildings.
ASCE/SEI commends NIST for their thorough study and for
the thought-provoking findings and recommendations. We also commend the
Congress for providing the funding for this worthwhile study. Even though the
first lesson of September 11 is to direct resources to prevention of such
attacks, we see important lessons from this tragedy for improving the
performance of buildings in emergencies that are more ordinary than the attacks
of September 11.
ASCE supports careful consideration of all of NIST’s
recommendations by the broad community that develops standards and building
codes for this country. NIST’s study built upon and extended the work of the
Building Performance Study Team that ASCE formed and FEMA supported immediately
after the tragedy, and which produced their report in 2002.
The detail of NIST’s study commands respect, and the
events at the World Trade Center, as well as at the Pentagon that day demand
our attention. The standard ASCE 7 has long included provisions for, or
guidelines for resistance to progressive collapse in its commentary. We look
forward to improving the technology for assessing such resistance in the
process of building design. We will also participate with interested
stakeholders in addressing the extent to which such properties should become
mandatory requirements.
ASCE is close to issuing a draft for public comment of
a standard for wind tunnel testing that will address some aspects of NIST’s
second recommendation. More work on building a wind resistant infrastructure is
needed, as shown by recent hurricanes, and we urge the Congress to fund the
recently authorized National Windstorm Mitigation Program. ASCE and the Society
of Fire Protection Engineers are issuing a new edition of their joint standard
on calculation methods for structural fire protection. ASCE is also preparing a
new standard for blast loading on building structures, and we are participating
in the panel being formed by the National Institute of Building Sciences that
will look into implementation of all of the NIST recommendations.
We do see some risks if NIBS or NIST elect to bypass
the standards upon which building codes rely by submitting changes directly to
the major model building codes. Although the standards process takes
considerable time, it builds a consensus of all affected stakeholders. A risk
to be considered is backlash if change proposals are made without the necessary
broad consensus. Some of the recommendations will need considerable refinement
on the thorny issue of dividing the population of buildings into classes for
which certain new requirements will apply.
Some of the other recommendations will require
considerable time to develop a knowledge base in the affected professions. We
see the NIBS panel as an important vehicle to coordinate actions in a fashion
to avoid negative concerns. We also believe that NIST should continue their studies.
More information is needed on the performance of fire insulation under various
environments, and on the various fire scenarios that would be used in
performance-based design of structures for fire resistance.
In conclusion, we welcome the opportunity to further
the improvement of building safety, and we caution that the work to come will
take more time than might seem necessary, now that the major study by NIST has
been completed.
Thank you.
[The prepared statement of Dr. Harris follows:]
PREPARED STATEMENT OF JAMES R. HARRIS
Mr. Chairman and Members of the Committee:
Good morning. My name is James Harris, and I am pleased
to appear on behalf of the Structural Engineering Institute of American Society
of Civil Engineers (ASCE/SEI)
(see footnote 7) as you examine ”The
Investigation of the World Trade Center Collapse: Findings, Recommendations,
and Next Steps” in light of the release of findings and recommendations of
the National Institute of Standards and Technology investigation.
The events at the World Trade Center in New York City
on September 11, 2001, were the worst building disasters in the history of the
United States. The National Institute of Standards and Technology conducted a
building and fire safety investigation of the disaster under the authority of
the National Construction Safety Team Act (15 USC 7301 et seq.). As a
result of its WTC Investigation, on June 23, 2005 NIST issued a draft report
with recommendations, and invited public comments on June 23, 2005.
ASCE/SEI supports a thorough review and deliberation of
all of the NIST Recommendations and looks forward to further discussions
clarifying the situations to which the NIST Recommendations should apply.
ASCE/SEI believes that engineers must avoid
over-optimistic reassurances about building safety, and agrees that increased
efforts should be focused on preventing terrorist attacks. That said, the 30
recommendations presented by NIST within eight categories address a range of
issues that we at ASCE/SEI think require serious discussion. Many of the
recommendations were presented by NIST as ”changes to codes and standards,”
which some may interpret to mean that the painstaking process of developing
consensus code and standard provisions should be unreasonably accelerated. We
believe that the consensus process, which is already underway at ASCE/SEI for
some of the concerns NIST has raised, is essential so that all aspects of an
issue can be considered. All of the issues deserve further consideration in
that community.
In the view of ASCE/SEI, at least some of the NIST
recommendations will require development of new technologies and close
examination of their effects upon the practice. At the same time, the existing
codes and standards processes that are already in place, both in and outside
ASCE/SEI, provide appropriate mechanisms for advancing several of these
discussions. Ultimately, the implementation of these recommendations will
require the development of appropriate thresholds and bounds for their
application. ASCE/SEI looks forward to taking an integral role in clarifying
the application of these recommendations.
In fact, some of the NIST recommendations follow
actions previously initiated by ASCE/SEI. For example, with respect to
Recommendation #2, ASCE/SEI is close to issuing a Wind Tunnel Testing standard
and anticipates opening it for public comment. With respect to Recommendation
#9, ASCE/SEI has been working with the Society of Fire Protection Engineers, and
has already prepared a draft to update ASCE/SEI/SFPE 29–99 (Standard
Calculation Methods for Structural Fire Protection), by incorporating
performance-based fire resistant design. With regard to Recommendation #27, we
look forward to engaging ASCE’s professional practices committee for comment
and guidance, though our initial reaction is that it may not be necessary or
beneficial to all parties for the Engineer of Record to retain all documents
for all time; our preliminary view on document retention is that the owner
should retain the drawings.
ASCE/SEI favors the development of tools to assist
engineers in addressing the issue of progressive collapse (Recommendation #1).
The development of a consensus document providing multiple approaches to
mitigating progressive collapse would benefit the profession by providing
concepts and techniques upon which to build. It is worth noting that GSA
requirements have already advanced technology for evaluating progressive
collapse. In general, ASCE/SEI prefers a building-specific and/or
owner-specific approach to mitigating progressive collapse rather than a
code-mandated requirement.
However, also with respect to Recommendation #1, the
ASCE/SEI reserves judgment on whether and how to develop standardized software
to evaluate the susceptibility of a particular structural system to progressive
collapse. Not all buildings are at risk of being exposed to the type of events
commonly associated with initiating progressive collapse. This NIST
recommendation needs study of its application and its effect upon the
profession because of the various design thresholds involved. When considering
possible causation events, other, non-structural, solutions are sometimes
effective. Having said that, we look forward to discussing who would develop
and maintain the potential software, who would distribute it and who would take
responsibility for training the profession in its use.
ASCE/SEI agrees that designing for fire performance of
structures (Recommendations #4–7) needs to be discussed within the broad
engineering profession, and is interested in taking an active role in
supporting studies examining these recommendations. A draft has been prepared
and we would welcome NIST’s input in furthering the development of this
standard. The concept embedded in Recommendation #8 of treating fire as a load
case for structural design will necessitate assumption concerning fire
protection systems. Their historical performance will need to be included in
the discussions along with the technical and economic impact.
ASCE/SEI feels that some of the NIST recommendations
need further clarification and discussion. ASCE/SEI would like a clearer
description of the rationale and motivation for developing limit state criteria
in Recommendation #3. It is possible that serviceability, perception of motion
issues, and existing seismic criteria on drift may satisfy this recommendation.
While much of Recommendation #25 appears to ASCE/SEI to be reasonable, the
concept of certification of ”as-designed or as-built” safety needs additional
discussion and understanding. Without further understanding of the envisioned
intent of this recommendation, its implementation may face numerous technical,
economic, and authoritative hurdles. Improving safety in existing buildings, as
directed in Recommendation #26, is certainly a laudable goal and one that
ASCE/SEI supports. While the existence of as-built drawings would assist in the
rehabilitation of existing structures as specified in Recommendation #26, a
requirement for the retention of a broad range of documents would not improve
the safety or performance of structures. Lastly, the roles of various
professionals within a project will change and vary from project to project.
The assignment of roles and responsibilities is an issue best handled by the
contract documents rather than codes and standards, as proposed in
Recommendation #28.
ASCE also supports Recommendations #29 and #30 which
call for increased continuing professional development for engineers and the
curriculum be expanded strengthen the base of available technical capabilities
and human resources. It is essential that practicing civil engineers remain
current with issues and advancements in technology. ASCE supports the
attainment of a Body of Knowledge for entry into the practice of civil
engineering at the professional level. The Body of Knowledge prescribes the
necessary depth and breadth of knowledge, skills, and attitudes required of an
individual entering the practice of civil engineering at the professional level
in the 21st Century. Establishing innovative solutions to protect public health
and safety requires coordination, training and sustained research and
development.
We are particularly encouraged by the recommendations
pertaining to education and we enthusiastically support continuing education of
the profession. However, specific issues, such as cross-training of fire and
structural engineering professionals, need to be clarified in further
discussions.
Our profession is responsible for protecting the public
to the best of our abilities and to seek new technologies to help us meet that
charge. In order to do that, we feel it is important to draw a distinction
between advancing the technology through the development of various tools, such
as consensus documents on progressive collapse and fire-structure interaction,
and potentially adversely affecting the profession by imposing regulations and
restricting the engineers’ freedom to develop the best solution for each
individual building and the embedding of mandatory provisions in building
codes.
While not every NIST recommendation may be ready for
enactment as is, ASCE/SEI is moving forward with discussion of the issues and
their implications for structural engineering practice, and looks forward to
working closely with NIST to clarify the application of these recommendations.
NIST Recommendations Referenced:
Recommendation 1. NIST recommends that: (1) progressive collapse should
be prevented in buildings through the development and nationwide adoption of
consensus standards and code provisions, along with the tools and guidelines
needed for their use in practice; and (2) a standard methodology should be
developed—supported by analytical design tools and practical design guidance—to
reliably predict the potential for complex failures in structural systems
subjected to multiple hazards.
Recommendation 2. NIST recommends that nationally accepted performance
standards be developed for: (1) conducting wind tunnel testing of prototype
structures based on sound technical methods that result in repeatable and
reproducible results among testing laboratories; and (2) estimating wind loads
and their effects on tall buildings for use in design, based on wind tunnel
testing data and directional wind speed data.
Recommendation 3. NIST recommends that an appropriate criterion should
be developed and implemented to enhance the performance of tall buildings by
limiting how much they sway under lateral load design conditions (e.g., winds
and earthquakes).
Recommendation 4. NIST recommends evaluating, and where needed
improving, the technical basis for determining appropriate construction
classification and fire rating requirements (especially for tall buildings
greater than 20 stories in height)—and making related code changes now as much
as possible—by explicitly considering factors including:
timely access by emergency responders and full evacuation of occupants,
or the time required for burnout without local collapse;
the extent to which redundancy in active fire protection (sprinkler and
standpipe, fire alarm, and smoke management) systems should be credited for
occupant life safety;
the need for redundancy in fire protection systems that are critical to
structural integrity;
the ability of the structure and local floor systems
to withstand a maximum credible fire scenario without collapse, recognizing
that sprinklers could be compromised, not operational, or non-existent;
compartmentation requirements (e.g., 12,000 ft) to protect the
structure, including fire rated doors and automatic enclosures, and limiting
air supply (e.g., thermally resistant window assemblies) to retard fire spread
in buildings with large, open floor plans;
the impact of spaces containing unusually large fuel concentrations for
the expected occupancy of the building; and
the extent to which fire control systems, including suppression by
automatic or manual means, should be credited as part of the prevention of fire
spread.
Recommendation 5. NIST recommends that the technical basis for the
century-old standard for fire resistance testing of components, assemblies, and
systems should be improved through a national effort. Necessary guidance also
should be developed for extrapolating the results of tested assemblies to
prototypical building systems.
Recommendation 6. NIST recommends the development of criteria, test
methods, and standards: (1) for the in-service performance of spray-applied
fire resistive materials (SFRM, also commonly referred to as fireproofing or
insulation) used to protect structural components; and (2) to ensure that these
materials, as-installed, conform to conditions in tests used to establish the
fire resistance rating of components, assemblies, and systems.
Recommendation 7. NIST recommends the nationwide adoption and use of the
”structural frame” approach to fire resistance ratings.
Recommendation 8. NIST recommends that the fire resistance of structures
should be enhanced by requiring a performance objective that uncontrolled
building fires result in burnout without local or global collapse.
Recommendation 9. NIST recommends the development of: (1)
performance-based standards and code provisions, as an alternative to current
prescriptive design methods, to enable the design and retrofit of structures to
resist real building fire conditions, including their ability to achieve the
performance objective of burnout without structural or local floor collapse:
and (2) the tools, guidelines, and test methods necessary to evaluate the fire
performance of the structure as a whole system.
Recommendation 25. Non-governmental and quasi-governmental entities that
own or lease buildings and are not subject to building and fire safety code
requirements of any governmental jurisdiction are nevertheless concerned about
the safety of the building occupants and the responding emergency personnel.
NIST recommends that such entities should be encouraged to provide a level of
safety that equals or exceeds the level of safety that would be provided by
strict compliance with the code requirements of an appropriate governmental
jurisdiction. To gain broad public confidence in the safety of such buildings,
NIST further recommends that it is important that as-designed and as-built
safety be certified by a qualified third party, independent of the building
owner(s). The process should not use self-approval for code enforcement in
areas including interpretation of code provisions, design approval, product
acceptance, certification of the final construction, and post-occupancy
inspections over the life of the buildings.
Recommendation 26. NIST recommends that State and local jurisdictions
should adopt and aggressively enforce available provisions in building codes to
ensure that egress and sprinkler requirements are met by existing buildings.
Further, occupancy requirements should be modified where needed (such as when
there are assembly use spaces within an office building) to meet the
requirements in model building codes.
Recommendation 27. NIST recommends that building codes should
incorporate a provision that requires building owners to retain documents,
including supporting calculations and test data, related to building design,
construction, maintenance and modifications over the entire life of the
building. Means should be developed for offsite storage and maintenance of the
documents. In addition, NIST recommends that relevant building information
should be made available in suitably designed hard copy or electronic format
for use by emergency responders. Such information should be easily accessible
by responders during emergencies.
Recommendation 28. NIST recommend that the role of the ”Design
Professional in Responsible Charge” should be clarified to ensure that: (1)
all appropriate design professionals (including, e.g., the fire protection
engineer) are part of the design team providing the standard of care when
designing buildings employing innovative or unusual fire safety systems, and
(2) all appropriate design professionals (including, e.g., the structural
engineer and the fire protection engineer) are part of the design team providing
the standard of care when designing the structure to resist fires, in buildings
that employ innovative or unusual structural and fire safety systems.
Recommendation 29. NIST recommends that continuing education curricula
should be developed and programs should be implemented for training fire
protection engineers and architects in structural engineering principles and
design, and training structural engineers, architects, and fire protection
engineers in modern fire protection principles and technologies, including
fire-resistance design of structures.
Recommendation 30. NIST recommends that academic, professional
short-course, and web-based training materials in the use of computational fire
dynamics and thermostructural analysis tools should be developed and delivered
to strengthen the base of available technical capabilities and human resources.
BIOGRAPHY FOR JAMES R. HARRIS
Experience
Jim is well versed in structural engineering practice
and research. He has designed or evaluated hundreds of structures ranging from
dwellings to high-rise buildings including industrial facilities, long spans,
buildings in the highest seismic zones, excavation bracing, pile and pier
foundations, vibration issues, and renovations of historic buildings. This
background spans nearly all types of construction and structural materials and
includes responsibility for management of all design disciplines. His
experience includes six years of full-time research. His research has focused
on the loading and response of structures, particularly earthquake and snow
loadings. A second focus is on improving the formulation and use of engineering
standards. He has written over 30 reports and journal articles on the results
of his research and practice. He is an active member of several committees that
produce national standards for structural engineering practice.
Education
Ph.D., University of Illinois, 1980, Structures and Foundations
MSCE, University of Illinois, 1975, Structures
BSCE, University of Colorado, 1968, Structures
Registration
Colorado: Professional Engineer #11118
California: Civil Engineer #34192; Structural Engineer #2640
Idaho: Professional Engineer #10309
Missouri: Professional Engineer #E–22713
Ohio: Professional Engineer #52667
National Council of Engineering Examiners Record #8449 (currently inactive)
Professional Employment
1984– J.R. Harris & Company, Principal,
Denver
1981–84 Structural Consultants, Inc., Principal, Denver
1975–81 National
Bureau of Standards, Center for Building Technology, Research Structural
Engineer, Gaithersburg, MD
1973–75 University of Illinois, Graduate Research and
Teaching Assistant
1969–73 Zeiler and Gray, Engineer and Associate, Denver
1968–69 Ken R. White Company, Engineer, Denver
Awards
Structural Engineering Institute of the American Society of Civil
Engineers, Walter P. Moore, Jr., Award, 2002.
Building Seismic Safety Council of the National Institute of Building
Sciences, BSSC Honor Award, 1997.
Colorado Engineering Council, Certificate of Honor, 1997.
U.S. Federal Emergency Management Agency Outstanding Public Service
Award, 1986.
U.S. Department of Commerce Bronze Metal Award for Superior Federal
Service, 1981.
District of Columbia Council of Engineering and Architectural Societies
National Capital Award for Special Achievement, 1981.
University of Colorado Department of Civil Engineering Ketchum Award for
outstanding graduating senior, 1968.
Professional Society Membership
American Concrete Institute; Fellow
American Consulting Engineers Council
American Institute of Steel Construction
American Society of Civil Engineers
American Society for Testing and Materials
American Welding Society
Coalition of American Structural Engineers
Earthquake Engineering Research Institute
International Association for Bridge and Structural Engineering
International Conference of Building Officials
The Masonry Society
National Society of Professional Engineers
National Trust for Historic Preservation
The Post Tensioning Institute
Structural Engineers Association of Colorado
Professional Committees and Activities (current)
American Concrete Institute: Member, Committee 318, Standard Building
Code, and subcommittees on Seismic Provisions and on Safety, Serviceability,
and Analysis
American Institute of Steel Construction: Member of Task Committees on
Seismic Provisions, Emeritus Member of Specification Committee; Former Chair,
Committee for the Design for Blast Resistant Steel Buildings
American Society of Civil Engineers: Chairman, Committee for Minimum
Design Loads for Buildings and Other Structures (ASCE 7); formerly Chairman,
Task Committee on Earthquake Loads
American Society of Civil Engineers: Member, Executive Committee for
Codes and Standards Activities Division of the Structural Engineering Institute
American Society of Civil Engineers: Member, core team for the Pentagon
to study building performance in the wake of the September 11, 2001, attacks
Applied Technology Council: Member, Board of Directors
Building Seismic Safety Council: Member, Provisions Update Committee,
Technical Subcommittee on Structural Design; Code Resource Support Committee;
formerly chair of committee that produced 1985 edition of NEHRP Recommended
Provisions (first edition), plus activity on several other technical
subcommittees
International Standards Organization, Chair of U. S. Technical Advisory
Group for TC 98, Bases for the Design of Structures
Mid-American Earthquake Engineering Research Center: Member, Executive
Advisory Board (Chair 2002–3)
Portland Cement Association: Member, Concrete Technology Advisory Council
Structural Engineering Institute of ASCE: member of Board of Governors
Structural Engineers Association of Colorado: Chairman, Committee on
Seismic Standards and Member, Committee on Snow Loads; President, 1990
The Masonry Society: Member, Board of Directors
Chairman BOEHLERT. Thank you very much. Mr.
Corbett.
STATEMENT OF PROF. GLENN P. CORBETT, ASSISTANT PROFESSOR OF FIRE SCIENCE, JOHN
JAY COLLEGE OF CRIMINAL JUSTICE
Mr. CORBETT. Thank you, Chairman Boehlert.
Chairman Boehlert and Members of the House Committee on Science, my name is
Glenn Corbett. I want to thank you for the opportunity to testify again before
you concerning NIST and the World Trade Center disaster investigation. Before I
discuss the investigation, I would first like to extend my thanks to you,
Chairman Boehlert, and the House Science Committee, for initiating the creation
of the National Construction Safety Team Act, and shepherding it through
Congress to final approval by President Bush. The American public is the
beneficiary of this critical legislation, and will reap the benefits of your
labors through the savings of lives and the construction of safer buildings.
Additionally, I must also note that although I am a
Member of the Federal Advisory Committee to the National Construction Safety
Team, I do not speak on their behalf. My testimony represents only my own
opinions. I recommend that the House Committee on Science review the annual
reports of the NCST Advisory Committee for details on their perspective.
Over three years have passed since NIST began its
investigation into the World Trade Center disaster. We now have come to the
conclusion of this $16 million effort of a search for answers about what happened
in the twin towers. The investigation has taken much longer than anticipated,
including the fact that the World Trade Center Building Number 7 investigation
will likely not be completed until next summer.
Although NIST has done quite a bit of work and has
amassed many thousands of pages of useful research, I feel that the
investigation has fallen far short of what is needed. From the beginning, I had
hoped for a true investigation with a tight set of specific recommendations at
the conclusion, that could be immediately passed to our national code writing
groups and trade associations. Instead of passing a blazing torch of detailed
recommendations, this lengthy marathon race has resulted in NIST giving our
model code writing groups only a handful of flickering embers that, although
generally good in principle, are entirely too vague. The model code writing
groups now have to wait even longer while NIST hires an outside organization to
prepare a set of recommendations that actually can be assimilated into our
construction codes.
During the course of the WTC investigation, I have had
serious concerns about some of the findings and conclusions that NIST has
drawn. Other individuals, including some people on the Federal Advisory
Committee, have also had concerns. While this hearing is not the appropriate
place to debate technical issues, I would suggest that a more formal mechanism
be developed to officially address comments from the public. Such a protocol
should include the technical basis for which NIST rejects or accepts the
content of a public comment.
Overall, I have been disappointed by the lack of
aggressiveness that has characterized not only the World Trade Center investigation,
but the Rhode Island Station Nightclub investigation as well. Instead of a
gumshoe inquiry that has left no stone unturned, I believe the investigations
were treated more like research projects, in which they waited for information
to flow to them. In both investigations, they were reluctant to use the
subpoena given to them under the NCST Act. To some extent, this lack of
assertiveness was likely the result of legal opinions given to NIST by staff
attorneys.
Recently, this situation was greatly amplified by
NIST’s reluctance to respond to Hurricanes Katrina and Rita under the banner of
the NCST Act. I suggested to NIST that they assemble an NCST team for Katrina
before it struck the Gulf Coast. They actually sent a handful of people a week
after Katrina hit, and only recently sending a much larger group of researchers
to the area. Curiously, they have decided not to respond under the NCST Act.
To their credit, NIST has brought many talented people
to the WTC investigation. They have expended a tremendous amount of effort,
compiled a great deal of technical data, pushed the technical limits of
computer models, and identified the general areas of concern where improvements
in safety regulation and practice are called for. They are to be commended for
their extraordinary research efforts, given the immensity of the project.
With respect to the 30 recommendations that NIST has
developed, despite being vague, they are areas of significant importance. I
feel the following particular ones deserve greater attention. These
recommendations concern enhanced structural fire resistance, redundancy for
fire protection systems in tall buildings, enhanced egress capabilities,
including dealing with stairwell counterflow, remoteness of exits, and full building
evacuation capacity, hardened elevators for egress, as well as robust
communication capabilities for emergency responders.
Where do we go from here with regard to the World Trade
Center? The ball is in NIST’s court, and it is up to them, with their
contractor, to quickly whittle the desirable but too general recommendations
into well-defined code language that can be quickly moved through the model
code review process. I strongly encourage them to be bold, use their best
engineering judgment, and come up with clear and concise code language. High
rise fire safety and safety in general is held in the balance.
When I look to the future of the NCST Act, sadly, I
find it necessary to recommend that serious consideration be given to finding a
new agency to implement the Act. I don’t think that NIST is the right place for
the NCST. Their nonaggressiveness, their absence of investigative instinct, and
the palatable lack of interest they have shown in the Act has brought me to
this conclusion. NIST is an organization of exceptional scientists and
engineers, not detectives.
Short of creating an entirely new Construction Safety
Team Board, I would recommend that serious consideration be given to moving the
NCST to the U.S. Chemical Safety and Hazard Investigation Board. They are a
close fit. They investigate explosions and chemical disasters in and around
structures. They deal with many of the same code writing bodies that NIST deals
with, including some of the organizations represented on this panel today. More
importantly, they are solely an investigative agency that issues
recommendations. Perhaps their purview could be expanded to include the NCST
Act.
In conclusion, I want to again thank you, Chairman
Boehlert, and the House Committee on Science, for taking the leadership role in
creating the NCST Act. The fact that it has drawn the attention of many people
sitting here today, and the organizations included on this panel today from the
safety and construction fields, is a testament to its importance.
Thank you.
[The prepared statement of Mr. Corbett follows:]
PREPARED STATEMENT OF GLENN P.
CORBETT
Chairman Boehlert and Members of the House Committee on
Science: My name is Glenn Corbett. I want to thank you for the opportunity to
testify before you concerning NIST and the World Trade Center disaster
investigation. Before I discuss the investigation, I would like first extend my
thanks to you, Chairman Boehlert, and the House Committee on Science for
initiating the creation of the National Construction Safety Team Act and
shepherding it through Congress to final approval by President Bush. The
American public is the beneficiary of this critical legislation and will reap
the fruits of your labors through the saving of lives and construction of safer
buildings.
Additionally, I must also note that although I am a
member of the Federal Advisory Committee to the National Construction Safety
Team, I do not speak on the committee’s behalf. My testimony represents only my
opinions. I recommend that the Committee on Science review the annual reports
of the NCST Advisory Committee for details on their perspective.
Over three years has passed since NIST began its
investigation into the World Trade Center disaster. We have now come to the
conclusion of this $16 million effort search for answers about what happened in
the twin towers. The investigation has taken much longer than anticipated,
including the fact that the World Trade Center (building) 7 investigation will
likely not be completed next summer.
Although NIST has done quit a bit of work and has
amassed many thousands of pages of useful research, I feel that the
investigation has fallen far short of what is needed. From the beginning, I had
hoped for a true investigation with a tight set of specific recommendations at
the conclusion that could immediately be passed to our national code-writing
groups and trade associations. Instead of passing a blazing torch of detailed
recommendations, this lengthy marathon race has resulted in NIST giving our
model code-writing groups a handful of flickering embers that although are
generally good in principle are entirely too vague. The model code-writing
groups now have to wait even longer while NIST hires an outside organization to
prepare a set of recommendations that can actually be assimilated into our
construction codes.
During the course of the WTC investigation, I have had
serious concerns about some of the findings and conclusions that NIST has
drawn. Other individuals, including some people on the federal advisory
committee, have also had concerns. While this hearing is not the appropriate
place to debate technical issues, I would suggest that a more formal mechanism
be developed to officially address comments from the public. Such a protocol
should include the technical basis for which NIST rejects or accepts the
content a public comment.
Overall, I have been disappointed by the lack of
aggressiveness that has characterized not only the World Trade Center
investigation but the Rhode Island Station Nightclub investigation as well.
Instead of a ”gumshoe” inquiry that left no stone unturned, I believe the
investigations were treated more like research projects in which they waited
for information to flow to them. In both investigations, they were reluctant to
use the subpoena power given to them under the NCST Act. To some extent, the
lack of assertiveness was the likely the result of the legal opinions given to
NIST by staff attorneys.
Recently, this situation was greatly amplified by
NIST’s reluctance to respond to hurricanes Katrina and Rita under the banner of
the NCST Act. I suggested to NIST that they assemble a NCST team for Katrina
before it struck the Gulf Coast. They actually sent a handful of people a week
after Katrina hit, only recently sending a larger group of researchers to the
area. Curiously, they have decided not to respond under the NCST Act.
To their credit, NIST has brought many talented people
to the WTC investigation. They have expended a tremendous amount of effort,
compiled a great deal of technical data, pushed the technical limits of
computer models, and identified the general areas of concern where improvement
in safety regulations and practice are called for. They are to be commended for
their extraordinary research efforts, given the immensity of the project.
With respect to the 30 recommendations that NIST has
developed—despite being vague, they are areas of significant importance—I feel
the following particular ones deserve greater attention. These recommendations
concern enhanced structural fire resistance; redundancy for fire protection
systems in tall buildings; enhanced egress capabilities including dealing with
stairwell counterflow, remoteness of exits, and full building evacuation
capacity; hardened elevators for egress; and robust communications capabilities
for emergency responders.
Where do we go from here with regard to the World Trade
Center? The ball is in NIST’s court, and it is up to them (with their
contractor) to quickly whittle the desirable but too general recommendations
down into well-defined code language that can be quickly moved through the
model code review process. I strongly encourage them to be bold, to use their
best engineering judgment, and come up with clear and concise code language.
High-rise safety is held in the balance.
When I look to the future of the NCST Act, sadly I find
it necessary to recommend that serious consideration be given to finding a new
agency to implement the Act. I don’t think that NIST is the right place for the
NCST. Their non-aggressiveness, their absence of investigative instinct, and
the palatable lack of interest they have shown in the Act have brought me to
this conclusion. NIST is an organization of exceptional scientists and
engineers, not detectives.
Short of creating an entirely new National Construction
Safety Team Board, I would recommend that serious consideration be given to
moving the NCST to the U.S. Chemical Safety and Hazard Investigation Board.
They are a close fit: they investigate explosions and chemical disasters in and
around structures. They deal with many of the same code-writing organizations
that NIST deals with, including some of the organizations represented on this
panel today. Most importantly, they are solely an investigative agency that
issues recommendations. Perhaps their purview could be expanded to include the
NCST Act.
In conclusion I want to again thank you, Chairman
Boehlert, and the House Committee on Science for taking the leadership role in
creating the NCST Act. The fact that it has drawn the attention of many people
and organizations from the safety and construction fields is a testament to its
importance.
BIOGRAPHY FOR GLENN P. CORBETT
Glenn P. Corbett is an Assistant Professor of Fire
Science at John Jay College of Criminal Justice in New York City, an Assistant
Chief of the Waldwick, New Jersey Fire Department, and a Technical Editor of Fire
Engineering magazine. He also serves as a member of the Federal Advisory
Committee to the National Construction Safety Team at NIST.
He was formerly the Administrator of Engineering
Services for the San Antonio, Texas Fire Department.
Chairman BOEHLERT. Thank you very much, Mr.
Corbett. Mr. Green.
STATEMENT OF HENRY L. GREEN, PRESIDENT, INTERNATIONAL CODE COUNCIL (ICC)
Mr. GREEN. Thank you, Mr. Chairman, and good
morning to you and the distinguished Members of this committee. It is indeed a
pleasure to be here today to discuss the role of building codes and standards
in the protection of the public through enhanced measures in building safety. I
am Henry Green, President of the International Code Council, and immediate past
chair of the National Institute of Building Sciences Board of Directors.
Through my testimony today, I hope to not only discuss
how the NIST recommendations can be employed in improving building safety
across the country, but also to leave you with a broader understanding of the
International Code Council and its role in protecting the public health,
safety, and welfare by creating better codes and standards to make for better
buildings and safer communities.
ICC, as you may be aware, is the product of a consolidation
of three regional code organizations, who came together at the urging of public
and private sector interests seeking a single set of nationally uniform model
codes for use in this country. As a result, the ICC now provides states and
local government with a single set of codes upon which to base commercial and
residential building standards for the safety of the public. It has also given
the federal sector a platform upon which to transition from the government
developed standards to voluntary standards, as directed by OMB Circular A–119
and the National Technology Transfer and Advancement Act of 1995.
Today, virtually all states and localities using a
model code adopt codes developed and maintained through a governmental
consensus process facilitated by the International Code Council. The codes bind
together hundreds of building standards developed by voluntary sector standard
developers, including many of those on this panel, and NFPA, ASTM, ASCE,
ASHRAE, and others. The codes provide the administrative and technical language
necessary for meaningful and consistent adoption and code enforcement and
results in the protection of the public’s health, safety, and welfare.
Because we are all focused on disaster response, I
would like to take a moment, if I may, to address concerns regarding the
construction codes and standards as they relate to the recent disaster
resulting from Hurricanes Katrina and Rita and now, Wilma. As demonstrated in
the hurricane that struck Florida over a year ago, and from earlier high wind
events that have caused devastation in the United States, we have learned that
compliance with codes and standards provide benefits in securing the safety of
the public in the built environment, as well as reducing mitigation costs in
recovery following these events.
ICC has worked with both federal and State agencies in
assisting in the recovery and rebuilding efforts in the Gulf region, and is
establishing a resource office in the Gulf region to assist in the rebuilding
efforts. When codes and standards are used effectively, we know that for every
dollar spent in prevention, we gain a residual of $3 to $5 in savings in
recovery efforts.
The Committee requested a brief discussion or
understanding of the process of ICC, of how ICC facilitates all interests,
interested parties in the preparation and the development of the international
codes. While I would enjoy today to give you an exhaustive explanation of that
process, I am sure you wouldn’t sit through it, so we will forego that. My
extended testimony does, however, speak to, more to the point, for your
reference. My oral remarks, may it suffice to say that our processes both
predate and is consistent with the principles embodied in NTTAA and the OMB
A–119, as well as internationally accepted practices, or principles in
consensus development. As with any democratic process, like that which guides
this body, it is deliberative, exhaustive in examination, time-consuming, and
requires much more care and attention. The result is an abiding respect for
both the process and the resulting quality and confidence the codes, in the
codes that our members produce.
I would like to proceed to the questions that have
actually been posed by this panel, and respond to those. Does ICC support the
recommendations of the NIST study? Events such as the structural failure of the
World Trade Center shake to our core our faith in science, engineering
standards, and means of ensuring building safety that we use to protect our
lives, our property, and our economy. The ICC has worked with NIST in examining
the collapse of the World Trade Center and the development of recommendations
for reform of the Nation’s building and fire codes and standards.
We have acted in support of the NIST recommendations by
empanelling technical committees of member experts to prioritize the
recommendations and prepare specific proposals that will be addressed by our
code development process. Also in support of the recommendations, ICC responded
to NIST requests for review of the document, the draft report, earlier with
extensive comments directed at assessing NIST, assisting NIST in the clarity of
its discussion and findings.
The majority of NIST recommendations on the subject of
codes and standards do apply to the international building code. Again, I would
reference you to my pre-filed remarks for a summary of our specific remarks on
the NIST report. It should be noted that the questions posed by the committee
is focused on new construction and significant renovation of existing
buildings. As we focus on code reform, we should not ignore the needs to
address the safety of ongoing use of our massive base of existing building
stock.
What specific steps will ICC be undertaking to
determine whether and how to incorporate the NIST recommendations into the
codes? Some of the steps associated with the NIST recommendations, we have
already begun. As a result of the World Trade Center attacks, the ICC formed an
ad hoc committee on terrorist resistant buildings. The committee, made up of
code officials, engineers, architects, and other building professionals, is
looking at the NIST work and other research in response to new threats that we
know now have to perpetually address.
In addition, we have charged our permanent Code
Technology Committee to specifically prioritize the NIST recommendations, and
to prepare them as code change proposals. In the two days just before this
hearing, our Code Technology Committee has been meeting with the National
Institute of Building Sciences to coordinate the work in developing and
preparing proposals based upon the NIST recommendations.
As to timing, the next code development cycle begins
with a deadline of March 24, 2006, for any interested party to submit code
changes. Through a multi-stage process of technical committee examination, two
public hearings, and two stages of public notice and comment, final action on
those proposals in the fall of 2007 will yield the 2007 supplement to the 2006
international building code. This process is repeated every 18 months,
resulting in a new edition of the code every three years, and a new supplement
in each interim.
The most significant barrier to adoption, as with any
code change proposal, is having technical documentation for the membership to
review the consideration of specific code changes and the advanced use of
formal and informal processes of discussion and review, to fully vet and analyze
each proposal.
What specific actions will NIST be taking to help
organizations incorporate its recommendations? It is our view that NIST and
other federal agencies already do participate in the code development processes
through submission of and advocacy of code changes. This participation both
adds to the quality of the review of all proposed changes, and helps the
agencies to achieve their program goals, as directed by both executive and
legislative branches of the government. This sort of federal interagency
coordination is precisely what is necessary for NIST to advance the
recommendations of the WTC report.
The NIST recommendations do not need to be reframed in
a manner that is consistent with the statutory construction of the ICC codes.
In the simplest terms, the probability of a code change being accepted or
eventually incorporated is dependent on the degree to which the existing code
is changed, first, and life-cycle cost impact associated with the change,
availability of any required new technology, and support infrastructure for the
technology, impacts on various trade, labor, and manufacturing interests, and
product—and impacts on the interests of advocacy groups. This process is quite
similar to what you use here in this legislative body to develop law and/or
other regulations.
ICC has recommended to NIST that it further partner
with interested and affected parties in the development of codes and standard
proposals, as opposed to taking up the effort alone, and assuming others will
take the lead. In addition, ICC has also stressed to NIST that without their
involvement and leadership in this process, there are two probable outcomes:
either nothing can be done to implement the WTC findings in codes and
standards; or multiple and varied interests will each use the findings to their
own advantage, resulting in multiple and varied non-uniform code and standards
proposals, that will be much more difficult and time-consuming.
With that said, there are some certainties associated
with the process. Changes that are not enforceable, and require specific
products or materials by name, are not likely to be accepted, nor are the
changes that reference codes and standards that have not been fully completed.
We at ICC applaud the work of Congress and support of Congress in this matter,
such that was conducted by NIST. We encourage continued support for such work
by Congress, and increased collaboration by the public and private sectors in
enhancing public performance and safety.
Finally, I would like to quote one section out of the
NIST report that I think is really focused on the issue of codes and standards.
”Rigorous enforcement of building codes and standards by State and local
agencies, well-trained and managed, is critical in order for standards and
codes to ensure the effective level of safety. Unless they are complied with,
the best codes and standards cannot protect occupants and emergency responders
or buildings.”
Thank you again for the opportunity to speak today, and
I would be pleased to answer any questions that you might have.
[The prepared statement of Mr. Green follows:]
PREPARED STATEMENT OF HENRY L. GREEN
Good morning Mr. Chairman and distinguished Members of
the Committee. It is a pleasure to be here today to discuss the role of
building codes and standards in protecting the public through enhanced measures
in building safety.
I am Henry Green, President of the International Code
Council (ICC). Through my testimony I hope to discuss how the NIST
recommendations can be employed in improving building safety across the
country, as well as leave you with a broader understanding of how ICC is
protecting health, safety and welfare by creating better buildings and safer
communities. Certainly the subject of today’s hearing and the ICC’s mission is
well-aligned. Aside from my elected position with ICC, I also serve as the
Director of The Bureau of Construction Codes and Fire Safety for the State of
Michigan.
I am participating in today’s hearing to specifically
address the implementation of the lessons learned from the world trade center
(WTC) collapse. In more general terms my comments also apply to and stress the
need for increased collaboration between Federal, State and local government in
the development, adoption and implementation of codes and standards to enhance
the safety and performance of new and existing buildings.
As a matter of background, I have been involved with
building codes and standards development, adoption, implementation and
enforcement issues at the international, national, State and local level for
almost 30 years, serving not only ICC but such organizations as the National
Institute of Building Sciences (NIBS), of which I serve as Past President.
Briefly, before I speak to the questions the Committee has asked me to address,
I will lay a foundation for a better understanding of ICC’s responses to those
three specific questions.
State and local government have relied on nationally
recognized model codes, and the standards referenced in those codes, as a basis
for their building construction regulations for almost 100 years. Initially
many State and local government agencies wrote their own ”home grown”
provisions but over time they began to rely more and more on one of four
regional model codes (the BOCA National Code, the ICBO Uniform Code and SBCCI
Standard Code and the National Building Code of the American Insurance
Association). The AIA ceased maintenance of its model code almost 30 years ago
and just recently the three other model code organizations merged to form the
International Code Council (ICC). The merger of the three regional
organizations came at the urging of public and private sector interests seeking
a single nationally uniform model building code developed through a voluntary
consensus process. The development of one family of model codes by the ICC,
which in turn reference standards from hundreds of building standards
developers such as ASCE, ASME, and ASTM, has provided State and local
government with a single national consolidated family of model codes upon which
to base commercial and residential building construction and fire safety
regulations. It has also given the federal sector a platform upon which to
transition from government developed standards to voluntary standards, as
directed by OMB Circular A–119 and the National Technology Transfer and
Advancement Act of 1995.
Today the majority of State and local agencies adopt
building and fire codes developed and maintained through the governmental
consensus process facilitated by the ICC. Think of these model codes as a
coordinated set of provisions that bind separate and distinct building
component standards so they can fully address the technical and administrative
aspects of building safety and performance. In most states I-Code based
building codes are required and enforced as a function of State-level
authority. In others, such as Tennessee, Maryland, Colorado and Illinois, the
authority to adopt and enforce codes primarily resides with local government,
and in those states most all local governments adopt ICC model codes to guide
residential and commercial construction.
In parallel to the events leading up to the formation
of the ICC and development of the ICC codes, the federal executive and
legislative branches of government established the groundwork for the federal
sector to increasingly base their building regulations on nationally recognized
model building codes as opposed to writing their own unique provisions. As a
matter of national policy, established through OMB Circular A–119 and the
NTTAA, all federal agencies are encouraged to use codes and standards developed
in the voluntary sector and, equally important, to participate in the voluntary
sector code and standards development processes. This policy eliminates the
duplication of effort and conflict in application that occurred when federal
agencies developed and maintained unique government standards. This policy also
enhances voluntary sector standards development by infusing those processes
with the experience and resources of federal agencies such as NIST.
This federal policy also saves time and money and ensures
consistency between public and private sector construction. Such consistency is
important to designers, contractors, manufacturers, and other entities doing
business with both the private and public sectors. Consistency is also
imperative where the structure in question is a private sector facility that is
leased to a federal agency. Such a facility must concurrently satisfy federal
as well as State and local building requirements. Most importantly, federal
sector use of voluntary sector codes and standards allows for public-private
partnerships that can bring the result of building research and experience to
bear on revision and enhancement to those codes and standards. Such is the case
with the NIST investigations associated with the WTC.
In summary, what not too long ago was a ”crazy quilt”
of differing federal, State and local requirements, each supported by separate
and distinct educational and other programs, has become a tapestry with a
singular foundation that involves public and private sector interests and
allows for unique federal, State and local threads without compromising the
quality of the fabric of the tapestry.
As we are all focused on disaster response I would also
like to take a moment to address concerns regarding construction codes and
standards as they relate to the recent disasters resulting from Hurricanes
Katrina and Rita. As demonstrated in the hurricane that struck Florida last
year and from earlier high wind events that have caused devastation in the
U.S., we have learned that compliance with codes and standards provides
benefits in securing the safety of the public in the built environment, as well
as reducing mitigation costs in recovery following these events.
ICC has pledged to work with both federal and State
agencies in assisting in the recovery and rebuilding efforts in the Gulf
region. We believe our effort will assist in providing a higher level of safety
not only from such devastating events as hurricanes but in prevention of fires
and other situations that plague our built environment. When codes and
standards are used effectively, we know that for every dollar spent in
prevention we gain a residual of three dollars in savings in recovery cost.
We will be providing a resource office in the Gulf
Region to assist in the rebuilding efforts by furnishing local governmental and
code officials with the resources they need to assure the reconstruction is
completed to a standard that will assist in minimizing damage and recovery
cost.
Given our experience and the working relationship we
maintain with federal agencies, we would like to expand our relationship and
further develop safety provisions for the protection of America’s citizens.
In addition
to responding to the questions regarding the NIST WTC report that the committee
put to the ICC it was asked that in my testimony I provide the committee with a
brief description of the code development process used by the membership of the
ICC to build and maintain each of the 14 model codes, and with an understanding
of how and where the model codes are adopted by authorities having jurisdiction
over the adoption and enforcement of regulations impacting building design,
construction and maintenance.
The widespread national application of the IBC and
other ICC codes is due in large part to the recognition of respect for the
voluntary consensus process by which the codes are developed. They are
developed in a democratic process with input and advocacy from both private and
public sector building and fire safety interests and any other interested or
affected party. ICC’s governmental consensus process adheres to the guiding
principles at the national and international level for development of consensus
documents. These principles—openness, transparency, balance of interest, due
process, consensus and process of appeals are embodied in the governmental
consensus process. The uniquely notable quality of the governmental consensus
process is that it leaves final determinations on code provisions in the hands
of public safety officials, who, like myself, are charged with representing the
public interest and have no commercial interest associated with the outcome the
process.
In this process any interested party can submit a
change to the codes or request that a new code be developed. All submittals are
published and made available for public review. All submittals are then
published and made available for written comment and discussed at nationally
noticed public hearings. At the first public hearing a committee of balanced
interests listens to all testimony, reviews all information submitted on each
proposal, then votes to recommend approval, rejection or approval with
modification. If any party at the hearing disagrees with the committee
recommendation the process provides for action by those at the hearing to make
and democratically act on a proposal for a substitute motion.
The results of the first hearing, both the committee
recommendation and any substitute assembly action are published and
disseminated in print and electronic form. Anyone can then submit a public
comment on those results and provide documentation supporting a different
outcome. The committee recommendation and additional public comment is again
published and becomes the basis for the agenda of a final action hearing at
which time the proposed changes and public comment are considered. At the final
action hearing the final vote on code content is made by public safety
officials, which, not unlike the legislative and regulatory processes used to
establish federal law and regulations, is made by Federal, State and local
government representatives who represent the public-at-large.
The IBC and other ICC codes are used by Federal, State
and local government to ensure building safety through the adoption,
implementation and enforcement of these codes. Nearly every federal, State and
local agency that enacts building codes has adopted the IBC as the basis for
jurisdictionally controlled building laws and regulations. Jurisdictional
adoption occurs through legislative or regulatory action that cites or directly
incorporates the IBC and may also include amendments that specifically tailor
the code to the needs of the adopting agency or jurisdiction. For instance, the
U.S. Department of State adopts the IBC as a basis for U.S. Embassy
construction worldwide but then adds provisions to address security needs
unique to a U.S. diplomatic facility.
States such as Michigan, Minnesota, Maryland,
Washington, New York, Oregon, North Carolina and Utah have authority in the
executive branch of government to develop and adopt a state-wide building code
and do so, again with amendments that tailor the IBC to address unique
geographic and climatic issues and differing legal and administrative
environments. In states without authority to adopt state-wide codes, or where
local governments are not required to adopt the state code, the state adopts
codes for state-owned buildings and leaves regulation of private sector
construction to local government. This is the case in states such as Tennessee,
Colorado and Illinois with local government having the authority to adopt codes
and Maryland that has a state code but does not have preemptive authority to
mandate local government action to adopt and enforce the code. Just as is the
case with state adoption, local adoption is effected through local elected
bodies or regulatory agencies.
Subsequent to adoption, the IBC is used to ensure
building safety through a number of mechanisms, each of which are focused on
ensuring that the requirements of the code are actually adhered to in the
construction of the building. Adoption of the code can be viewed as
establishing a speed limit for highway travel. Though the limit is set, it is
meaningless unless the limit is posted and enforced to ensure traffic safety.
So too, federal, State and local agencies have ways to ensure code compliance
and, as a result, building safety. Note that the IBC not only contains design
and construction requirements but also a number of administrative criteria
associated with inspection to ensure compliance in the field.
In the case of an agency that adopts the IBC and is
also the building owner—such again as the U.S. Department of State, or State or
local government agency responsible for State or local owned construction—the
adopting agency enforces the code and typically does so as a function of the
contracting process that governs the building design and construction. The
contractor is responsible for compliance and may be subject to inspection from
the authorizing governmental agency, may be subject to inspection by other
third parties or may be allowed to self-certify compliance with penalties
assessed in the future if non-compliance is verified.
For private sector construction, building safety is
ensured through a review of the building plans and specifications for code
compliance by the applicable State or local agency, inspection of the building
for code compliance during construction, a final occupancy inspection and
continued monitoring and evaluation of selected issues during the life of the
building.
Now, to the
questions the Committee asked that I address.
Does ICC support the recommendations of the NIST study? Why or why not?
Events such as the structural failure of the World
Trade Centers shake to our core our faith in the science, engineering,
standards and means of ensuring building safety that we use to protect our
lives, our property and our economy. The ICC, from the beginning of this
investigation, has supported the work of NIST in examining the collapse of the
WTC and the development of recommendations for reform of our nation’s building
and fire codes and standards. The NIST investigation, even as it was in
process, began providing the building industry with information which has been
used to develop and implement new criteria in building codes and standards.
Last year, as the membership of the ICC began the process of evaluating code
change proposals for publication in the 2006 edition of the codes, a proposal
emanating from early understandings of the collapse was put forward, thoroughly
evaluated, discussed and approved. The IBC now requires buildings of 420 feet
and higher to be constructed with structural components having at least a
three-hour fire resistance rating; the previous requirement was a two-hour fire
resistance rating for structural components. These increased requirements match
the changing conditions we face in providing for building and fire safety and
address the public will to afford higher levels of security and protection. In
making these changes it is also important to protect the integrity of the
public deliberation inherent in maintaining the democratic development of
voluntary consensus. We have begun to infuse post-WTC concerns into the code,
and, as I will speak to in addressing the committee’s other questions, the ICC
has acted in support of the NIST recommendations by empanelled technical
committees of member-experts to prioritize the recommendations and form them
into specific proposals that can be addressed by our code development process.
In addition, we are working with other groups, such as the National Institute
of Building Sciences in efforts to assess the WTC findings and to effectively
develop proposals for change to the code.
Also in support of the recommendations ICC responded to
NIST’s request for review of its draft report earlier with extensive comments
directed at assisting NIST with the clarity of its discussion and findings. The
majority of NIST recommendations on the subject of codes and standards do apply
to the IBC. These are noted below with a brief indication of how ICC gauges
their potential applicability.
NIST calls for more rigorous enforcement of codes. ICC believes a more
appropriate term than enforcement is compliance. Enforcement is a means to
achieve the goal of safe buildings, something embodied in compliance. There are
other ways to secure compliance such as incentives or labeling that not only
ensures the goal is reached but can secure results above and beyond simple
enforcement of minimum codes and standards.
NIST calls for well trained and managed staff and educational programs.
ICC agrees and feels that NIST and other federal agencies can and should become
more active in working with the private sector to develop and deploy programs
that would strengthen the resources that support code compliance.
NIST suggests an increased focus in structural issues from a design,
construction, and operations and maintenance standpoint. The IBC, and
referenced standards therein such as those from ASCE, provide a basis for
measuring and expressing structural performance and ensuring some agreed
minimum level of structural integrity in buildings.
NIST suggests an increased focus in the fire resistance of structures and
methods to evaluate and determine their performance with respect to fire. The
IBC, and referenced standards therein such as those from ASTM, provide a basis
for measuring and expressing building performance from the standpoint of fire
resistance and ensuring some agreed minimum level of performance.
NIST suggests increased consideration of performance based criteria as an
alternate to prescriptive criteria. The IBC addresses this in two ways. In
establishing minimum prescriptive criteria the IBC establishes a basis to
evaluate alternative approaches to performance equivalency. The IBC also
references the ICC building performance code, a stand-alone code that is
completely performance-basis oriented. It is notable that NIST staff has been involved
in the development of this performance-based code.
NIST suggests development and use of new materials, coatings, barriers
and other technology. The IBC addresses this by allowing acceptance of
alternative materials and methods of construction when they are certified to
perform at least as well as items specifically allowed in the IBC. Equivalency
is based on evaluation reports developed through engineering analysis prepared
by entities approved by the authority enforcing the code. As new certified
materials become more commonplace standards are proposed and adopted to
specifically address criteria for their application and use.
NIST recommends improvements in active fire protection systems. The IBC
and referenced standards therein, such as those by NFPA, provides a basis for
review and incorporation of such improvements.
NIST recommends improvements in building egress and evaluation. As I have
discussed, the IBC provides a basis for review and incorporation of such
improvements.
NIST recommends improvements to emergency response, building access,
communications and central controls. The IBC provides a basis for review and
incorporation of such improvements.
On the basis of the WTC investigation NIST has made a
number of recommendations to improve building safety. The IBC provides a basis
to address and take action on proposals for these recommendations and, through
adoption as previously noted, ensure their widespread implementation throughout
the U.S. In this manner the NIST work on the WTC report can have a significant
impact on future building design and construction.
It should be noted that the question posed by the
committee is focused on the IBC, which is used to guide new construction and
significant renovations to existing buildings. There is also a need to address
the safety of the on-going use of our massive base of existing buildings.
Through the ICC, safety requirements for these buildings are addressed through documents
such as the ICC International Existing Buildings Code (IEBC) and ICC
International Fire Code (IFC). Through the NFPA these issues are addressed in
the Life Safety Code and the National Fire Code. Jurisdictional use of these
codes, coupled with incentive programs to foster enhancement to existing
buildings, can address building safety where it may not be possible to
legislate renovation.
What specific steps will ICC be undertaking to determine whether and how to
incorporate the NIST recommendations into its codes? How long should that
process take? What will be the greatest barriers in the process?
Some of the steps associated with taking action on the
NIST recommendations, as I have discussed, we have already begun. As a result
of the WTC attacks and the need to consider code changes to address
terrorism-related issues in the built environment, the ICC formed an Ad Hoc
Committee on Terrorism Resistant Buildings. The committee—made up of code
officials, engineers, architects and other building professionals—is looking at
the NIST recommendations as well as other research related to responding to new
threats that we now have to perpetually address. In addition, at the annual
assembly of our membership last month, the ICC charged our permanent Code Technology
Committee with a corresponding assignment to specifically prioritize the NIST
recommendations and to prepare those recommendations as proposals for the
deliberate review of our code development process. In the two days just before
this hearing our Code Technology Committee has been meeting with the National
Institute for Building Sciences to coordinate work in developing and preparing
proposals based on the NIST recommendations.
For the next code development cycle any recommendations
to revise the IBC and other ICC codes can be submitted by any party, including
NIST staff or parties with whom NIST participates, on or before March 24, 2006.
The recommended changes, as discussed, need to provide specific language and
citations to amend the code and need to be accompanied by supporting
documentation. It is our view that the information gathered and analysis
conducted by NIST on the WTC collapse would prove instrumental in development
of changes and supporting documentation.
As to the standards referenced in the IBC, NIST would
have to take similar action with each standards developer based on individual
procedures and deadlines.
The timeframe associated with the next cycle of the ICC
code development process is from March 24, 2006, at which time proposed changes
are due as noted above, to October 4, 2007 with the completion of the final
action hearing. The result of this process will yield the 2007 supplements to
the 2006 editions of each code. This process is repeated every 18 months,
resulting in a new edition of the codes each three years and a new supplement
each interim.
More details on this process are covered in a
PowerPoint presentation presented and discussed with NIST staff earlier this
year. The objective of ICC’s initiative with NIST staff, in advance of release
of the WTC report, was to advise NIST of the full extent of the public process
or code amendment so that NIST could begin to develop a strategy for
implementing the WTC report recommendations in parallel to completion of the
report. In this way it was hoped NIST could develop specific codes and
standards proposals prior to the March 2006 deadline. One such suggestion was
for NIST to not only take the lead in development of proposed changes to the
IBC and other ICC codes but also to parallel that activity by submitting those
changes to federal agencies and key State and local government for early
consideration for action.
The most significant barrier, as with any code change
proposal, is having technical documentation for the membership to review in
consideration of specific code change proposals, and the advance use of formal
and informal processes of discussion and review to fully vet and analyze each
proposal.
What specific actions should NIST be taking to help code organizations
incorporate its recommendations? Are the recommendations framed in a way that
facilitates their adoption by code organizations or are they too general or too
specific?
NIST, as well as a number of other federal agencies, do
already participate in the code development process through submission of and
advocacy for code changes. This participation both adds to the quality of the
review of all proposed code changes and helps the agencies to achieve their
program goals as directed by both executive and legislative branches of
government. For instance the U.S. Department of Energy has submitted changes to
the IBC in the past to more fully address the structural and fire resistance
aspects of buildings associated with certain radiation-related processes. This
will specifically help address DOE interests as a building owner as well as the
general public. This sort of federal interagency coordination is precisely what
is necessary for NIST to advance the recommendations of the WTC report through
ICC’s code development process, as well as the code and standards development
of other providers of voluntary consensus standards. Another example is
participation by the Consumer Product Safety Commission in realization that the
ICC codes are effective vehicles to achieve CPSC’s public safety goals where
they may not have otherwise have rule-making authority.
As I’ve discussed, the recommendations are not written
in a way that facilitates direct adoption and do need to be reframed in a
manner that is specific to the desired result, consistent with the statutory
construction of the ICC codes, and presented in a manner that provides citation
to each section and subsection of the code that is directly or collaterally
impacted by the proposal; not too much unlike the manner in which legislation
this panel reviews must be framed to be consistent with the standing body of
our U.S. Code. The prospects of the adoption of any recommended change to the
IBC or other ICC codes cannot be addressed without seeing the details of the
particular change. The nature of the process to develop codes and standards
within the voluntary sector, in allowing for participation by all interested
and affected parties, ensures full due consideration with respect to all views
and variables.
In the simplest terms, the probability of a code change
being accepted and eventually incorporated into the IBC or other ICC codes and
maintained in federal, State and local adoption of those codes is dependent on
the degree to which the existing code is changed, first and life cycle cost
impacts associated with the change, availability of any required new technology
and support infrastructure for that technology, impacts on various trade, labor
and manufacturing interests, and impacts on the interests of advocacy groups,
among other factors. In this manner the effects on the process are quite
similar to what the legislative or executive branches go through in considering
laws or regulations that impact U.S. industry, public interests, the economy
and the environment.
The ICC has recommended to NIST that, as the degree of
revision associated with changes to the codes and standards increases, NIST
should consider partnering with interested and affected parties in the
development of codes and standards proposals as opposed to taking up the effort
alone or assuming others will take the lead. In addition ICC has also stressed
to NIST that without their involvement and leadership in this process there are
two probably outcomes; either nothing will be done to implement the WTC
findings codes and standards, or multiple and varied interests will each use
the findings to their own advantage resulting in multiple, varied and
non-uniform codes and standards proposals that will be much more difficult and
time consuming to sort out, address and eventually agree upon.
With that said, there are some certainties associated
with the process. Changes that are not enforceable or require specific products
or materials by name are not likely to be accepted, nor are changes that
reference standards that have not been fully completed.
As an
association comprised building regulatory and construction industry
professionals who come together to establish model codes for use by the public
and private sectors, the ICC is focused on building and fire safety. The ICC
codes provide a platform and foundation for achieving improved building safety.
The process for their revision and enhancement is open to all and affords NIST
and all others the opportunity to take the results of research, investigations
and studies and have them, through the wide adoption of the ICC codes, put into
practice.
We at ICC applaud all the work supported by Congress,
such as that conducted by NIST. We encourage continued support for such work by
Congress and increasing collaboration by the public and private sectors in
enhancing building performance and safety.
Thank you again for the opportunity to speak with you
today. I will be pleased to answer any questions you have or provide additional
information you may need.
BIOGRAPHY FOR HENRY L. GREEN
In 1989 Henry L. Green was appointed Executive Director
of the Bureau of Construction Codes and Fire Safety. Henry has worked in the
Bureau for more than twenty years serving as a building inspector, Chief of the
Barrier Free Design Division, Chief Building Inspector and as Deputy Director
before assuming his current role.
As Executive Director, Henry provides management and
oversight for construction and fire safety programs in the state of Michigan.
These program responsibilities include the development and implementation of
construction codes and standards, fire fighter training, building, and fire
inspection programs, public fire safety education, and the state fire marshal.
Additionally, Henry serves as Project Director for the
Michigan Timely Applications and Permit Service (MiTAPS), an on-line processing
system for permits and licenses issued by the State of Michigan, and serves as
President of the International Code Council Board of Directors, an organization
of which he is a founding member.
Henry has also served on the Building Officials and
Code Administrators (BOCA) Board of Directors for ten years, serving as
President in 1997. He also serves as a member of the Board of Directors of the
National Institute of Building Sciences, recently completing a term as Chairman
of the Board of Directors in 2004.
Over the years, Henry has been recognized nationally
and internationally as a proponent for developing and implementing building and
fire safety initiatives and codes. In 1990, the Automatic Fire Alarm
Association (AFFA) named Henry ”Man of the Year” for his contributions to
life safety as Chairman of the BOCA Ad Hoc Committee for Fire Protection. AFFA
acknowledged, ”under his fine leadership, the committee developed numerous
code changes to the BOCA National Building and Fire Prevention
Codes. . .and significantly improved life safety in both new and
existing construction.”
In 1998, Henry received the ”Distinguished Service to
Government” award from the Building Industry Association of Southeastern
Michigan and was awarded the Walker S. Lee Award in recognition of outstanding
service to BOCA International in 1999.
In addition to serving the state of Michigan, Henry has
participated in national and international code forums representing building
code officials at World Organization of Building Officials conferences in Hong
Kong and Australia.
A life-long resident of Lansing, Michigan, Henry serves
as a member of the Trustee Ministry and Building Construction Committee at his
church, Union Missionary Baptist Church. He is a former President of the
Woodcreek Parent Teacher Association and served on the Waverly High School
Parents Advisory Committee.
He, and his wife Angela, are the parents of two grown
sons, William and Jason.
Discussion
Chairman BOEHLERT. Thank you very much, Mr.
Green. As all of you have observed, we have been rudely interrupted by a call
of the House. The Speaker doesn’t check first with the Science Committee to see
how we are doing in our proceedings before determining whether or not we are
going to be voting. So, we are going to have to take a recess for about 20
minutes, while we answer the call of the House. It is my understanding that
there will be two votes, and on this vote, there are exactly six minutes and 41
seconds left for us to get over to the Capitol.
I will just leave you with a couple of thoughts before
we come back and begin the questioning in earnest. I think, Mr. Corbett, you
asked the most profound question of the moment. Where do we go from here? And
that is our determined effort, to determine where we go from here, and how we
get there. I would point out that Dr. Jeffrey didn’t direct the study or
conceive it. He inherited it, and he is the new guy on the block, and we have
got to deal with that fact of life.
Secondly, I would point out that if you look at the
report, some observers might say it is bold and comprehensive. Others might
charge that it is vague. I think it is a little bit of both, and where it is
bold and comprehensive, we have to seize upon the direction and guidance given
us. Where it is vague, we have to flesh out some of the details, and get a
little more specificity. And that is what we are going to direct our questioning
to, as we return from this rude interruption.
And I will let the Speaker know that you all share my
view that he rudely interrupted this proceeding. With that, let us adjourn for
20 minutes.
[Recess.]
Chairman BOEHLERT. We will start again. Members
will be drifting back from the floor activity. Understandably, our focus will
be on the report, and particularly, Dr. Jeffrey, your commentary will be
welcome. Doctor, several of the witnesses have implied, and Mr. Green and Mr.
Corbett have stated quite explicitly, that NIST recommendations are not
presented in a specific enough form to fully inform the code writing process.
This is obviously a very serious matter, and we recognize that. I am sure you
do, too.
Let me ask you a series of questions, and then, I will
shut up and listen to your response. Why did NIST choose to present its
recommendations in this fashion, and why have you only now contacted NIBS, the
National Institute of Building Sciences, and when will NIBS’ document be
completed, and to what extent will NIST review the document, and finally, and
very importantly, will NIST be making specific recommendations to the ICC prior
to March, because if they don’t come prior to March, well, that just adds more
time to the whole process?
So, I know it is a tall order. I have asked those
questions, and I see you furiously taking notes. And let me, once again,
acknowledge the fact that I recognize that you didn’t direct this study. You
inherited it. But you are the guy on the block now, and you are the point man,
and we have a high regard for you, and we want to work cooperatively with you,
but we want to do as much as we can to eliminate vagueness and concentrate on
specificity.
The floor is yours.
Mr. JEFFREY. Thank you, Mr. Chairman.
I did inherit this, but I am very proud of what I
inherited. I think the NIST team, and working with the outside experts, have
done a phenomenal job on this.
In terms of the first question, why were they couched
in this fashion, this level of specificity? The actual detailed recommendations
are in the end of the summary report, Chapter 9, and so I hope everybody takes
a look at that. That is where there is a little bit more detail on them. But
the real trade-off is we aimed for performance-based. As I am fairly new to the
codes and standard setting organizations, I have learned to appreciate the
process as they go forward. And this is very much of a give and take. It is a
consensus-building. It is a very open, consensus-built process, and the point
is to try to put forward the guidance as to what needs to get done. And I
believe that the NIST recommendations do a very, very good job of defining the
what in terms of the recommendations.
The specifics of the how is where you now need to do
the tradeoffs between different organizations, different vested interests, and
the whole process of how the standard setting organizations and the code model
organizations define this is this give and take between the different vested
interests from the builders, developers, engineers, public safety——
Chairman BOEHLERT. I am going to interrupt you
here, and——
Mr. JEFFREY. Sure.
Chairman BOEHLERT. But just let me, I mean, do
you disagree with what Mr. Green said, specifically, the recommendations are
not written in a way that facilitates direct adoption. And how can you have
give and take on vagueness?
Mr. JEFFREY. I believe that the recommendations
are specific in terms of the performance, but we now need to go through this
consensus process of turning those into the specific language that the code
developers can use in their national model codes. And this is that step of,
now, using the National Institute of Building Sciences, and working with these
organizations to address those very concerns. That is the next step, and we are
working with them. In the process of being very open, I was very pleased to
hear several of the witnesses talk about actually starting this process during
the investigation itself, as some of the recommendations started to become
apparent.
And so, I think that it is at the appropriate level of
detail now, as I believe Mr. Green also stated, that if we over-specified them,
they would also have a higher risk of rejection. So, it is that delicate
balance of trying to do the consensus. In terms of the timeline, we are very
much committed to meeting the requirements as appropriate. For example, right
now, what we are going through is all of the recommendations, with NIBS and
with others, to identify those codes where we can get the language in place to
meet the March 2006 deadline.
Chairman BOEHLERT. So, you are personally
committed to that March deadline.
Mr. JEFFREY. Absolutely. Some of the
recommendations, as has been pointed out in the documents and by some of the
witnesses, require more work in terms of some of the research and development,
and so, what we are trying to do is separate those with NIBS, to identify those
that can go forward very quickly, those that require a little bit more detail,
in terms of the research.
Chairman BOEHLERT. So, when is NIBS going to be
ready, and you are going to have their report, you are going to evaluate? What
is the timeline there?
Mr. JEFFREY. It is going to be actually more of an
ongoing process where we would expect that as a lot of the language becomes
available, they are going to be submitting these. As I said, there is going to
be a set by March 2006. I will actually defer to the expert here, Shyam Sunder,
who ran the investigation, and is running the NIBS contract, on is there a
specific final deliverable and a date. I am not trying to put you on the spot,
Shyam.
Chairman BOEHLERT. Well, come on up and identify
yourself for the purposes of the record.
Mr. SUNDER. I am Shyam Sunder. I am Deputy
Director of the Building and Fire Research Laboratory, and lead investigator of
the——
Chairman BOEHLERT.
We will provide seats, if you would like to have a seat. You know, we don’t
want you——
Mr. JEFFREY. You are more generous than I am,
so——
Mr. SUNDER. Thank you.
There are—we will prioritize the recommendations, so
that those that are ready for the March deadline will go to the March deadline,
and those that are ready for the next three year cycle, which would be a
deadline six to eighteen months after that, we would go for that. But the
people on our committee, the NIBS committee, do represent the organizations
around this table. So, we have official representatives from those
organizations.
Chairman BOEHLERT. All right. Let me ask some of
the other witnesses. Mr. Green, Mr. Corbett, let us go down the line. What is
your reaction to what he said? Is that good enough?
Mr. GREEN. Well, we are committed to working
with them and NIST to make sure that they have in line for March code changes
that are appropriate, to the degree that we can get through after we
prioritize. I think that once that is accomplished, getting it in the context
of submission for code language is somewhat easy, because we will have the
experts working with them at NIBS to put it in that context. That is what we
need to do.
The language that is used in the report is not here is
how you would put it in the code body, and that is why we have the people
sitting at the people with them. So, I am confident that we can get through
this process, albeit we may not get through all of the recommendations, but
those that we can get through, we will have them ready for March.
Chairman BOEHLERT. Mr. Corbett, what do you say?
Mr. CORBETT. I am glad to hear that they are
committed to March. I think everyone recognizes that the code development
process is a long one to begin with, and if we could have truncated this
somehow, and got that process of recommendation, preparation, started during
the investigation itself. Because some of these, I think, are kind of
no-brainers. I mean, there are things that we could have been doing perhaps a
year and a half ago.
Chairman BOEHLERT. Yeah, but as you said so
eloquently, where do we go from here? So, we can’t re-create what——
Mr. CORBETT. Right, right.
Chairman BOEHLERT.—is already——
Mr. CORBETT. Well, I think——
Chairman BOEHLERT.—behind us.
Mr. CORBETT. I think, you know, from my
perspective, if they are committed to a March timetable, I mean, that is a
pretty quick turnaround, I would think. I mean, from my perspective. As far as
having so many people involved here. I mean, NIBS is bringing 15 or 20 people
into this process here, so——
Chairman BOEHLERT.
But—let me ask you—and I will get to Dr. Harris and Ms. McNabb.
Mr. CORBETT. Yeah.
Chairman BOEHLERT. My red light is on, so I will
go to Mr. Miller in a second, but are you comforted by what Dr. Jeffrey is
saying in his testimony now, in his response to these questions? Do you feel
that we are on-course and we are going to be timely with specific
recommendations, and there is enough time before March to have that so-called
give and take he is referring to, and that we are going to produce something
worthy of note?
Mr. CORBETT. Yeah. As I said, I think I had
hoped that it would have been a lot sooner, but I mean, this is a commitment
they have made, and I appreciate that. I think it is telling, also, that the
NFPA and ICC both have made changes years ago, on some of these things we are
talking about today. I mean, the fact is that this investigation has gone
beyond what even the code groups themselves have done on their own. So, I think
that is—we have got to shorten this process for the future.
Chairman BOEHLERT. Dr. Harris or Ms. McNabb, do
you have any comment? Microphone.
Mr. HARRIS. Sorry. I am comforted by what Dr.
Jeffrey says, and if you recall, the last thing I said was, this process is
going to take a long time. And let me tell you why I said that. In February of
1970 or ’71, there was a significant earthquake in the San Fernando Valley of
Southern California, and it demonstrated that buildings built according to the
then most current building codes and standards would not perform well in what
could only be considered a moderate earthquake at the time. That got the
attention of several federal agencies. They commissioned some studies to
essentially realize that finding, and make recommendations that building codes
and standards needed to be brought up to the state of knowledge, if you will,
that existed in the research community. That process took about a quarter of a
century.
The knowledge base wasn’t intended to be expanded, per
se, just get that knowledge base into mandatory requirements and codes and
standards. It happened in several stages. There were things that did occur
within three years of that event in interim updates to some building codes.
About six years later, there was an act of Congress that was passed, the
Earthquake Hazard Reduction Program. That took some time. Even following that,
there was another major milestone in about 1988 in the building codes, and
another one in 1997. It takes a long time to incorporate some of these changes.
Now, some of the ones are very narrow scope detailed, and I think you may see
action on them beginning in March. That is fine.
Some of them, like the one I happen to be the most
concerned with, number one, increasing the structural integrity in buildings,
and providing resistance to progressive collapse. That is not an easy nut to
crack. In fact, there, we probably even need more basic knowledge. And so, it
is going to take a long time before everything that NIST has uncovered and
recommended is addressed, and it will not all happen in one fell swoop.
Chairman BOEHLERT. Ms. McNabb.
Ms. MCNABB. Yes. NFPA has already made a number
of changes to our codes and standards, as a result of the NIST investigation.
We don’t really need the NIBS process, because our process is a consensus one.
We bring together all the stakeholders in our process, so it is not just the
enforcers who are making the final decision. It is, you know, the users of the
buildings, the laborers, the insurers, the design professionals. We have nine
categories of stakeholders that participate in our process. We have the
technical expertise.
And after
the NIST investigation began, we set up a High Rise Safety Advisory Committee
to look at high rise safety, and to be ready for the NIST report, because we
recognized that it is really society’s role to take the recommendations, the
science, and set the thresholds, and determine which buildings should these
recommendations apply to, and to weigh that and balance the risk and the safety
as it is.
Were we frustrated that the recommendations were not
more specific? In some cases, yes, because the other investigation that we were
familiar with was the Station Nightclub investigation, and that investigation
done by NIST was much more specific than that World Trade Center investigation.
So, we feel that they could have been more specific in some cases, but again,
you know, just by its very nature, the investigation, the largest building
failure investigation, I think, is going to come up with some science that
needs to be studied and thought about, and all the viewpoints need to be
brought in. And that is what we are doing.
Chairman BOEHLERT. Well, it is good to know that
we are moving forward on several fronts, but we are impatient, understandably.
A lot of people are impatient, understandably, and a lot of people want action
as quickly as possible. And I am reminded of another issue, acid rain, which is
one of my pet concerns, and people kept calling for more studies, more studies,
more conversation, more give and take. And I remember Governor Kean, at the
time, who ironically headed the 9/11 Commission, Governor Kean saying if all we
do is continue to study the problem, we will end up with the best documented
environmental disaster in history.
So, I think we are all very anxious to get going with
some degree of specificity, with something that is tangible, that we can get a
hold of, and we appreciate the fact that some of these things are going to be
time-consuming, but time is a wasting. With that, Mr. Miller.
Mr. MILLER. Thank you.
I understand that building codes are designed to be a
balance between risk and cost. If something is a serious risk, we will expect
people to pay money to provide against that risk, to incur expense to provide
against that risk. But if something is a real remote possibility, we will be
less inclined to do that.
Dr. Jeffrey, I was struck by your testimony and by Ms.
McNabb’s about whether NIST recommendations for building codes should apply to
every building, every commercial building the same. Most of the discussions
about our terrorism risk have assumed that there is some possibility that there
would be truly a random attack on any garden variety commercial building in
America, but the most likely targets are what homeland security has called iconic
buildings, buildings of high symbolic value. The World Trade Center. The
Pentagon, obviously both of those. The John Hancock Center. The Empire State
Building. Dr. Jeffrey, I have practiced law for a while, in a garden variety
six story office building in the North Hills area of Raleigh called the
Landmark Center. It was Class B space. That was fine. I had kind of a Class B
law practice. Why on Earth would you expect the Landmark Center on Six Forks
Road in Raleigh to have the same standards of preparation against terrorist
attack that the John Hancock Center would have?
Mr. JEFFREY. Thank you, Mr. Miller. Actually,
the actual building codes that get adopted are at the State and local level.
First, you know, that is part of the political process within the State and
local governments as to what is appropriate for that specific setting.
Secondly, in the report, NIST does recommend that the
owners of the iconic buildings, much like the ones you have mentioned, may want
to view a higher level of preparedness than the average—the report specifically
does not try to recommend that every building in the Nation be able to survive
an attack with a fully loaded 747. And so, it does try to make that
distinction, and calls out the iconic buildings separately.
Mr. MILLER. Should that be something dealt with
by—that sliver of commercial properties, that are the most likely terrorism
targets, should those be dealt with by Congress, rather than leaving that to
local building codes?
Mr. JEFFREY. I am not sure that I am actually
qualified to respond to where the State and local versus federal roles should
plan.
Mr. MILLER. All right. Well, Ms. McNabb, what is
your thought on this? Do you think that the Landmark Center ought to have
essentially the same standards applied to it that apply to the John Hancock
Center?
Chairman BOEHLERT. Let me interrupt here. Now, I
won’t take this from your time, but you know, this is not just about terrorist
attack. It is about wind, it is about fire, it is about a whole bunch of other
things that may not involve any terrorist activity, but we know we don’t know
enough, and I am not quite certain we know what we don’t know, but we know we
don’t know a hell of a lot, and with that, Dr. Jeffrey——
Mr. MILLER. Mr. Chairman, could you diagram that
sentence for me? Ms. McNabb. Dr. Jeffrey, did you want to respond now?
Mr. JEFFREY. No, I will wait.
Mr. MILLER. Okay. Ms. McNabb.
Ms. MCNABB. I don’t think you can make a
building terror-proof, and I don’t think that you can have a code that, you
know, sets forth terror-proof regulations, because by definition, terror is
finding out what people have planned for, and then doing something above and
beyond that to scare them or hurt them. So, I don’t think that that is
reasonable. I do think that there—that after 9/11, we see that it is important
to set the threshold for some buildings differently. And even, I will say, high
rise construction has progressed so much that, you know, what we used to think
of as a high rise now is, has gone very, very high. And so, maybe it is time to
think about different thresholds for tall buildings.
That, I think, is part of what we want to do when we
bring all of the players. Perhaps, it is not just a threshold for how high the
building it is or how iconic the building is, but where it is located in terms
of the urban fabric, that is, that surrounds it. So, those are all things that
we need to take into consideration, and unfortunately, catastrophes are what we
respond to, rather than common sense. I mean, we could be moving forward on
this on a regular basis, but people’s attention isn’t on it regularly, even
though the science progresses, and we learn more about how to provide elevators
for tall buildings, and we learn more about different technologies that can
help us construct buildings. We don’t move along on the safety as quickly, I
think.
Mr. MILLER. Okay. It is striking to me that
there does not appear to be a sense of urgency in the private sector about
agreeing upon a standard for private sector preparedness, of what is expected
of them. The 9/11 Commission devoted all of about a page and a quarter to
private sector preparedness, but essentially said it should be the law of civil
liability, negligence, and insurance considerations, and underwriting. It
should be financial incentives that moves American business to take steps,
care, that are appropriate to the risks they face. And suggest further industry
standards, which it seems NIST might very well be part of.
The initial estimate of the insurance loss from 9/11
was $40 billion. It turned out to be $32 billion. The difference was all
liability claims, that Congress’ compensation for victims made compensation
contingent upon waiving liability claims. So, everyone except the passengers on
the airplanes, of their families, waived the liability claims, because those
were very uncertain claims, given how stunned the Nation was by 9/11 and the
very idea that we should have anticipated that and provided against it,
something that seemed beyond our imagination. It won’t be beyond our
imagination the next time.
I would think American business, that commercial real
estate, would be pushing hard for an industry standard, some standard that
makes very clear what should be expected of them, not just so they can do the
right thing, and so that they will not go to bed thinking that people died when
people could have lived if they had something different. But for the simple,
pragmatic reason that they will have a defense to a negligence claim to show
that they met the standard of care that was expected of them, that there was an
honest standard. But in this hearing, and in other discussions in other
committees, there seems to be no such urgency. Do any of you have any, do you
sense that there is an urgency, and if not, why not?
Ms. McNabb.
Ms. MCNABB. We have a standard, NFPA 1600, on
emergency preparedness, that encourages the public and private sector to come
together and ask themselves a series of questions. And I think that is the kind
of thing that works, because you and your facility, if it is located, and I
believe it is being used in New York City, you look at what the hazards are in
your building, what the population is, what the context is, and you answer a
series of questions, and then you plan for those. You provide, you know, your
employees with what they need, the information they need, places to go if it is
a biochemical event. Places to go if it is fire, if it is, you know, and if
follows through and allows them to plan for different kinds of emergencies. So,
it is out there, and it is being used and adopted.
Mr. MILLER. Mr. Corbett.
Mr. CORBETT. I will just add that I testified
before the 9/11 Commission on this specific issue, and I think, unfortunately,
they missed the mark as far as the other piece of it. We have talked—she just
mentioned NFPA 1600, which deals with the people side of preparedness for
issues of terrorism, things like that. But what, really, they missed was the
need for some kind of document, some kind of ruler to measure the level of
protection provided for iconic buildings, with specific regard to terrorism,
because the code groups have up until this point not developed anything, and I
applaud the ICC, because they actually did create a committee to address those
issues. ASCE has a committee on blast-resistant design, but you are right.
There has been no rush to have at least, again, not a requirement, but at least
a set of guidelines or a ruler that you can measure a building against to say
yes, this building is well prepared for a terrorist attack, versus one that
perhaps is not. Thank you.
Chairman BOEHLERT. Thank you. Dr. Jeffrey, does
NIST have any estimates of the costs of implementing the recommendations, and
were costs a factor in making their recommendations, and do you think cost
should be a factor in determining whether to adopt the recommendations?
Mr. JEFFREY. Thank you. Cost was not a factor in
making the recommendations. These were, again, performance-based. Part of the
process of having all of the different groups represented, including the
building operators, the engineers, the architects, the standard setting
organizations, is for us not to specify that specific solution, but for those
trade-offs to be made, and to try to find the best approach. And then,
depending upon the situation, some of the expenses may be more justified than
others. It is much along the lines of the sentence that was trying to be
parsed. There has got to be a risk-based approach to this, and for some
situations, some of the requirements may make more sense than others. But that
is part of what this next step is.
Chairman BOEHLERT. Ms. Regenhard made some
recommendations about making a lot of the information more available to the
public at large relating to the investigation.
One, do you think she is on to something, and two, why
aren’t more of the deliberations available for public consumption, and three, I
would be anxious to hear what the other witnesses on the panel would say about
if she thinks that recommendation about making publicly more information
available?
Mr. JEFFREY. Thank you. We are actually
committed to make publicly available as much of the evidence from the
investigation as we can. A portion of the evidence we received from third
parties is protected under nondisclosure agreements, and we are actually going
back to those parties to try to figure out exactly how much of that we can
release legally.
In addition, a lot of the photographers have material
that is copyrighted, and so, we are working with them to try to make sure that
we have the proper, appropriate copyright protections in place, as that data
gets released. And also, a lot of the interviews that were taken, we are going
through all of that information to redact out any of the information that might
be able to identify the individual, to protect their personal privacy. But as
we go through that process, we are going to be releasing a vast amount of that
data.
Chairman BOEHLERT. Let me ask the other panel
members. What do you think about that? I mean, should we have more information
publicly available for review and examination and comment and response? Mr.
Corbett.
Mr. CORBETT. Definitely. The answer is yes to
that. That has been one of my concerns on the advisory committee, is that for
example, all the information dealing with the first person accounts, the
interviews that NIST had conducted, at one point, there was discussion about
destroying that information. No decision had been made, but that was a
possibility at one point, and I think now, NIST has basically said at this
point, it won’t be destroyed, but we are still not sure how it is going to be
disclosed. And I think for the benefit of myself and other people that are,
weren’t part of the investigation, that we are kind of on the outside looking
in. This is critical information for them for other research they are doing
also. But also, to verify the conclusions, the findings, and of course, the
recommendations that were, that come about. So, critically important to get
that information, as much of it that can be given.
Unfortunately, I think this is an issue with the Act
that NIST ended up in a position of having to sign agreements with various entities
to not disclose this information, but again, this is diametrically opposed to
that whole open process that we have talked about so many times here today, and
also three years ago.
Chairman BOEHLERT. Well, you know, proprietary
information, I suppose I can understand that, but if the information is
subpoenaed, if you ask for information, saying ”please come forward and give
us all the information you have,” and they say, ”well, we will sign this
nondisclosure agreement.” Why would anybody sign a nondisclosure agreement
unless there are instances, clearly, where you can understand the need for
that.
Mr. CORBETT. Totally understandable, and I think
this is a critical, critical issue that you have brought up, because this was
certainly an issue for the World Trade Center investigation, was certainly an
issue for the Rhode Island Nightclub investigation, because the Rhode Island
Nightclub investigation, in my opinion, was effectively shut down because they
had access to virtually information in the first place, the witnesses that were
there that day, because the Rhode Island Attorney General told them they
couldn’t have it, and NIST really from, I would imagine from their legal staff,
decided that it wasn’t possible for them to have open hearings, to solicit
information, to issue subpoenas for that information, and that is critical. It
is critical to this Act, and it was critical to what happened with these
investigations, and——
Chairman BOEHLERT. Well, yeah. There is always a
balancing, delicate balance in there——
Mr. CORBETT. There is, and I have no qualms
about proprietary information and personal information. That is not at issue
here. But it affected, especially, that Rhode Island investigation, because a
lot of the accounts that are recorded in the investigation report are from the
Providence, Rhode Island Journal, the newspaper. They are newspaper
accounts. So, why didn’t we have access to people that actually were there,
like the Rhode Island Attorney General, and I think that these whole legal
clouds that have been over these investigations are particularly troubling.
Chairman BOEHLERT. Anybody else care to comment?
Ms. Jackson Lee.
Ms. MCNABB. I think the more——
Chairman BOEHLERT. Or excuse me, Ms.——
Ms. MCNABB. I think the more sunshine on the
process, the better it is. I think that in general, in America, there is sort
of a disconnect between the science and the application of the science, and
knowing information, and then, knowing then what should be done with that
information.
In Katrina, for example, I mean the last NOAA reports
that we had when they were talking about wind speeds, and what was going to
happen. It was hard to get people to understand the implications of the
science, and they started saying things like dogs and cats will be living
together and it is going to shake buildings. The more science that NIST can
give us, and the more information that we have, I think the better off it will
be for the public, because they will understand that building regulations don’t
just come out of a vacuum and from the building police, that there is a reason
for, perhaps, raising the cost of construction, or perhaps making some
trade-offs, or doing things differently.
Chairman BOEHLERT. In almost all cases, more
information, rather than less, is desirable if you are reviewing and serious
about making recommendations to prevent something in the future from happening.
Did you want to add something?
Mr. JEFFREY. Just a short statement, that we are
absolutely committed to that. We agree with that. I think the entire process
that we have tried to follow has been as open as possible, as described. The
number of open meetings, the number of comments received. And we are committed
to trying to release as much of the data as we legally can, and so, we know, we
approve and agree with the statements.
Chairman BOEHLERT. Ms. Jackson Lee.
Ms. JACKSON LEE. I have been on this committee a
sufficient number of years to remember the hearings that we had immediately
after 9/11 to discuss a number of elements, including the question of the
building safety and security, but also, a number of other issues dealing with
interoperability and science, that could have been affected, particularly in
the area dealing with fire protection. So, I am gratified that we are now here
for a hearing that has to do with a report that has been rendered.
I am interested in the testimony of Ms. Regenhard. Are
you able to come to the table, or answer any questions? I would be delighted to
have you—let me. And let me thank you, first of all, for your testimony, and
accept my tardiness because I was flying in on a late flight. But I thought
this hearing was important enough for me to be able to come and to assess the
testimony, and to hear from you as well.
You made, I think, a very potent point, which is that
there was a sensitivity that the NIST study was not detailed enough, that it
seemed to have some political ramifications. They may not have been on the
ground, and many of us have been to Ground Zero. I serve on the Homeland Security
Committee, as many of the Members of this Science Committee does, and we have a
very visual sense of the need.
Can you share with us what more you would want, would
have wanted NIST to do, or where were the political correctness issues that you
think really didn’t do the appropriate, or did not give the appropriate
response?, particularly as you have faced a personal loss in the loss of your
son, and you have my deepest sympathy?
Ms. REGENHARD. Thank you very much.
First of all, I just want to preface my comments with
saying I often introduce myself in the way that I am basically just a little
mother from the Bronx, and really, that is what I am, and I am not a technical
person. However, I do have, over the last four years, you know, the input from
my wonderful technical advisory panel, which represents some excellent,
excellent people in the academic fields, and certainly, you know, in structural
engineering, fire protection, architecture, and evacuation specialists.
So—but to get back to your question, you know,
political correctness. I have seen, and the other families of the victims have
seen the aftermath of 9/11 to be somewhat definitely flavored by political
correctness in many, many ways, in so many ways. But certainly, with the NIST
investigation, I mean, I understand that it is a wonderful organization of
scientists, and scientists are not trained to be like NYPD detectives. There is
a professional and academic way that these kinds of organizations deal with one
and with other entities. And you have other professional people in that
investigation that should have been really interrogated, such as the Port
Authority, such as their building plans. You know, the Port Authority never
turned over their building plans until there was an article about it in the
front page of the New York Times condemning them, or not condemning
them, but accusing them of really not coming forward. That is one of the
examples. People like the chief structural engineer for the first World Trade
Center, you know, his work should have been investigated, because after all, he
was responsible for the design of that building, and the subsequent, and yet,
instead of that, he was sort of dealt with in a friendly basis, and he was
actually put on the payroll to explain his plans and all that.
So, there were these very, you know, maybe because I am
a layperson, I can’t understand why these entities that should have been
scrutinized and investigated were sort of taken in and became part of the
investigation. You know, that is just one of the examples of where the families
were really, really deeply concerned about that. And also, the avoidance of
certain things that were not politically correct, like the avoidance of blaming
anyone for anything. I mean, we all teach our children to obey the law, and to
respect authority, and not to break any laws, but yet, when we have this
investigation of the, I would say the needless deaths of nearly 3,000 people, no
one is to be blamed. It is handled so gingerly. I mean, there is a reason why
nearly 3,000 people are dead, and I feel the majority of them needlessly, but
yet, the approach of these investigations is very, very tentative, and no one
wants to put anyone on the line, and no one wants to look into what was the
effect of the Port Authority immunities from building and fire codes?
If someone said to me what are the two major grievous
examples of what went wrong on 9/11 in those buildings? I would say the two
things are the Port Authority exemptions and immunities from New York City
building and fire codes, and the wholesale failure of the FDNY radio
communications, and the wholesale failure of the Emergency Management System of
the City of New York and the Port Authority. And these are the crux of the
matter. This is the bottom line. Yet, these are the issues that were, you know,
skirted around and, you know, tiptoeing through the tulips, instead of—and
still, today, I have to fault both the 9/11 Commission and the NIST
investigation for not taking a stand, for not saying that in our country, no
building should be above the law, especially the Port Authority buildings that
were the tallest and largest buildings in the world, that at that time, was
built to contain the largest number of people in the world, and yet, those
buildings were allowed to be exempt and immune from building and fire codes,
essentially above the law, and now, we are allowing the Port Authority to do
the same thing all over again.
The new World Trade Center and the memorial, and every
single building down there on that property will be just as exempt and immune
from every single New York City building and fire code as the first one. That
is an abomination. That is a sin. That is an outrage against humanity. And you
know, I am sorry to get emotional. I expected the NIST investigation and the
9/11 Commission to take a stand on that, but you know what, it is only the
average Joe Q. Citizen. When we break the law, we have to pay the consequences,
but when we have these huge organizations breaking the law, I feel they are not
held to the same standard as an average citizen, and that hurts.
Chairman BOEHLERT. Thank you very much.
Ms. REGENHARD. Thank you. I am sorry. I am
talking too much. I am sorry.
Ms. JACKSON LEE. Thank you very much for giving
us that testimony. Mr. Chairman, I would hope that in the course of this
review, that Dr. Jeffrey of NIST and others who are representing the fire
protection community, Mr. Green, who has several ideas about being able to
self-code or self-improve your buildings against wind and others, the Katrina
story that I understand that you shared with us, can respond to her inquiry
about building codes and immunity. That seems to be an indictment of the report
from the very start, and I hope we will have an opportunity to review that, and
I hope Mr. Jeffrey will have an opportunity to respond to that indictment.
Chairman BOEHLERT. Thank you. The——
Ms. JACKSON LEE. Thank you.
Chairman BOEHLERT.—gentlelady’s time has
expired.
I would report that we anticipated, in developing the
legislation that authorized the report and everything, we anticipated that
there would be a reluctance on the part of some to provide information. There
would be inertia. And that is why we gave subpoena power to NIST, to go in and
get the information, and it was not NIST’s role to assign blame. It is NIST’s
role to investigate, to determine what went wrong, to make recommendations on
how to go forward, and that is what we are determined to work cooperatively
with Dr. Jeffrey and the NIST people, to make certain it happens the way we
want it to happen, and that we don’t drag our feet, or we don’t issue a report,
and sort of say gee, we did a great job. We have this report, and have it not
as specific as we would like, or there be a lack of follow through.
And quite frankly, Congress has a responsibility, too.
We have got to conduct more meaningful oversight hearings. It is all well and
good for Congress to pass legislation, and then put out our press releases, and
say boy, we passed this legislation dealing with an important problem facing
the people of the Nation we are privileged to represent, and then go on to the
next thing. We have got to pause now and then, and look back and say, is it
working as intended? How can we make sure it works more effectively?
And that is why we are having this hearing today. This
isn’t the first hearing or the second hearing, it is the third hearing, and we
are going to have more. And we are not ignoring Ms. Regenhard and her group.
They are very valuable resources for this committee, and we listen to them, and
we want to work cooperatively with them, but we want to work cooperatively with
everybody.
So, let me ask you, talking about our responsibility,
Dr. Jeffrey. In your testimony, you haven’t discussed what actions should be
taken by the Federal Government in response to your recommendations. It seems
there are a number of steps, not only relating to the General Services
Administration, but to the agencies that run R&D and education programs,
including FEMA and NSF, and NIST itself. What should the Federal Government be
doing? Is NIST going to put out any formal document on this, and how are you
going to work with the other federal agencies on these matters?
Mr. JEFFREY. Thank you, sir.
There are a number of actions that need to be taken. As
I mentioned earlier, there are a number of research and development programs,
for example, that are sure to come out in this report. In fact, the report
actually highlights where some of those R&D efforts are. And you know, a
lot of them fall under NIST to try to execute. We have made a plug for the
last—probably the last couple of days I can make this plug, we have got a
program in the FY ’06 President’s budget to try to address some of those
R&D programs, and I am hoping Congress looks kindly on that, so we can
start to address some of those.
Chairman BOEHLERT. No, continue. But how about
some of the other agencies?
Mr. JEFFREY. On the other agencies, we need to
get together. We have not done that yet. There are some of the recommendations
that involve, especially some of the education programs. We have been working a
lot with the private sector on that. We need to bring in some of the other
parts of the Federal Government that we have not yet done.
Chairman BOEHLERT. Because you know what
happens. You know, you all march down the, you develop your budget, and then,
you march down to OMB, and say this is what we want. This is what we can
justify. Here is the documentation. And then, the cuts start happening,
particularly in the R&D area, and because that is longer range, and we have
got to deal with the issue of the moment.
So, we are going to be helpful to you, with respect to
NIST’s particular budget, and quite frankly, what an embarrassment the way
Congress treated you last round. This round, we are going to treat you better,
and we are determined to see that. You got all friends here, but some of these
other people, we have got to convince, or don’t even know what the hell NIST
stands for. But you have got to talk to some of the other agencies, and have
some specific recommendations on what they should be doing, and we want to
follow through with you on that, to make sure we keep on their tails, so to
speak.
Mr. JEFFREY. Absolutely, and I would be very
happy to follow up with you and your staff on that.
Chairman BOEHLERT. All right. Now, I think it is
fair to say that NIST is making some pretty far-reaching, perhaps even
revolutionary suggestions here, particularly with regard to full building
evacuation. All of you, perhaps understandably, are hedging your bets at best,
in your testimony as to whether the recommendations would find their way into
code. Is your general sense that NIST’s approach makes sense? Do these
recommendations have applicability beyond terrorism, to more—and I think they
should and do—to more routine problems encountered in the field, including
natural disasters?
Let me go down the panel, and ask who wants to respond
first to that? Dr. Harris.
Mr. HARRIS.—able to make these recommendations.
The solution to the terrorism problem is not to really make buildings stronger.
It is to keep airplanes and things like that out of buildings. This event has
created a tragic misconception, I think, in the minds of the public, that
buildings actually perform better than typical buildings really will perform.
The public believes that when a big airplane flies into a building, what
happens is what happened at the World Trade Center and at the Pentagon, that
is, the plane disappears into the building, and there is a hole. Smoke begins
to come out, and after a while, some portion, or maybe all of the building
collapses. That is not what happens when you fly a big airplane into most
buildings. What happens is——
Chairman BOEHLERT. They do know that the
building was structurally sound. It was the insulation, the foam that was blown
off, and——
Mr. HARRIS. That is correct. What happens with
most buildings is, in fact, a portion or maybe all of the building collapses
immediately. Their recommendation number one addresses that. But the addressing
it is not to make it safe for an airplane. It is to make it safe for a satchel
bomb, or perhaps, a car bomb outside. There are completely different issues,
all right.
But that is—the real value of the study is we do need
to think about that. When we get into this question of iconic buildings, there
is not just going to be one dividing line, I do not believe. We are going to
have something for the next World Trade Center, certainly. There will be
something for the City Hall in Denver, Colorado, for example. I had——
Chairman BOEHLERT. Well, how about Mr. Miller’s
six story building in Raleigh, because——
Mr. HARRIS. And Mr. Miller’s six story building
probably will not be affected by that recommendation, at least in my own
opinion, it probably would not. And that is not because I invest in real estate
or construction. It is just I don’t think it will be. But there will be a
gradation, and that is what is going to take time to come to, as well as, on
that particular issue, the technical substance of how you do it is going to
have to take some time, too. There is no one magic recipe there. I would want
to get on the record something I had meant to say earlier, and commend the
General Services Administration for the leadership they have been taking on
that issue of progressive collapse, with the construction of new federal
courthouses, where they are taking that issue very seriously.
And I would like to make one other comment, while I
have the mike. And that is I saw that recommendation number 25 actually does
respond to the issue raised by Ms. Regenhard of the Port Authority having an
exemption. It is an important recommendation here that needs to be carefully
considered. There are all sorts of legal ramifications about how you implement
this, so it is not going to come quickly, either. But I think the pressure of
your bully pulpit, and Congress in general, bringing to light the issue of
various entities having these exemptions, and how you go about fulfilling the
promise that I am trying to build something as good as the code would require.
How do you go about that? That is something for, I think, all of us to focus. It
is——
Chairman BOEHLERT. Just let me read into the
record. It won’t take me long. The recommendation number 25, because it is very
pertinent. ”Nongovernmental and quasi-governmental entities that own or lease
buildings, and are not subject to building and fire safety code requirements of
any governmental jurisdiction should provide a level of safety that equals or
exceeds the level of safety that would be provided by strict compliance with
the code requirements of the appropriate governmental jurisdiction. To gain
broad public confidence in the safety of such buildings, NIST further
recommends that as designed and as built, safety be certified by a qualified
third party, independent of the building owner or owners. The process should
not use self-approval for code enforcement in areas including interpretation of
code provisions, design approval, product acceptance, certification of the
final construction, and post-occupancy inspections over the list of the
buildings.” That is a pretty good recommendation, I think.
Mr. Corbett, Mr. Green, do you want to comment on this?
Mr. GREEN. Well, from my perspective, I think
that we should encourage, if not more strongly encourage, states to establish
standards for buildings in their areas where they may not have code
enforcement.
Chairman BOEHLERT. But does this approach make
sense to you?
Mr. GREEN. It does make sense, but the value of
having a governmental entity have that oversight, I think, adds value to the
safety in the building. I am not so sure I am sold on this third party element.
I would rather see that the third party would be a governmental entity that has
some enforcement responsibility, to assure that the building does comply. I
don’t want to suggest before this committee that it is not appropriate to have
third party involvement, but you are assured at a greater level when you have
governmental involvement for oversight to compliance.
Chairman BOEHLERT. What do you say, Mr. Corbett?
Mr. CORBETT. I agree totally. I might also make
a couple notes, that the word governmental is missing from recommendation
number 25. The Federal Government, State government, local government. The word
government isn’t in there. So, that is a whole group of buildings out there
that are not, obviously, subject as we stand today, with local and State
regulations, and I would point out, it is ironic that you mentioned GSA before,
because I know GSA actually has participated in the code development process,
and actually, to my understanding, was stating an opposition of proposals for
wider stairs in high rise buildings. So, it is kind of ironic that on one hand,
you know, we are not—they do not have to comply with the code, but on the other
hand, are able to participate in the process that affects other buildings. So——
Chairman BOEHLERT. Government has a way of doing
that.
Mr. CORBETT. But I do, I agree totally with Mr.
Green that my own opinion that I would have, I would prefer that recommendation
25 not look for a third party, but look for that, again, that local government
or State government, whatever it is, to review and to inspect and to oversee
the nongovernmental and quasi-governmental entities.
Chairman BOEHLERT. I don’t think we have legal
authority. But government is in the habit of saying don’t do as I do, do as I
say. Any other comment on that, before I go to Dr. Ehlers? Ms. McNabb, did you
have something?
Ms. MCNABB. Yes. In terms of the recommendation
25, I think it is a good recommendation. We support it. In fact, the NFPA
comments were to include government, but understanding that that is a matter of
Constitutional law, and perhaps, that is why NIST recommended the third party,
is that is an easy way of dealing with that issue, related to the Constitution.
In terms of full building evacuation, to go back to
your earlier question, I think that it is inevitable that after 9/11, even
though it is not required, that building occupants may want to do a full
building evacuation or drills in the event of an emergency. NFPA has a pamphlet
on this, but we think that it should be looked at, because full building
evacuation could result from things like a bomb threat, from things like a
power failure, not necessarily terrorism. So, it is something that I think
needs to be studied, and it is a good recommendation.
Chairman BOEHLERT. Thank you
very much. Dr. Ehlers.
Mr. EHLERS. Thank you, Mr. Chairman. I apologize
for missing much of the hearing, but we still have one of my markups going on,
and I will have to dash over there shortly.
On the issue of evacuation, I was amused in thinking
about this and the relationship with NIST, but when I spent a year at JILA in
Boulder, Colorado, as you know, there are a lot of mountaineers in that area,
including in JILA. I went into one of my colleague’s offices one day, and he is
up on the ninth floor of JILA, and saw this 150-foot coil of rope there, and I
said oh, going climbing later? He says no, no. That is my emergency escape
route. And he was dead serious. If anything happened down below, he was going
to just rappel out the window, and go on down.
Dr. Jeffrey, I have a question for you, that there
apparently has been some controversy or criticism of NIST that they did not
invoke the NCST, and did not send their NCST team down, as part of
investigative team, to the Gulf Coast after Hurricanes Katrina and Rita, but
instead, used your standard authority for that. And the criticism has been that
you haven’t exercised your leadership role in the federal investigation of the
damage to—hurricane-related damage to the buildings in that area. And I would
just like to get on the record a response to this. Why did NIST choose not to
invoke the National Construction Safety Team Act when deploying these
teams? And how has NIST interacted with other federal agencies that are on the
ground in the Gulf Coast states? And why are you not leading the effort on
building safety investigations?
Mr. JEFFREY.
Thank you, sir. The authorities that NIST has to do investigation are
essentially the tools in our toolbox. And we are going to use the best tool,
the most appropriate tool, for whatever investigation we need to do. And for
the Hurricane Katrina and Gulf Coast areas, we have got authorities that are
actually broader than the NCST, and more appropriate for the kinds of
investigations that we need to do.
For example, we had a reconnaissance team go down
there, and a lot of the things that were identified, in terms of further
investigation, includes not just buildings, but includes other components of
the infrastructure, for example, water, and sewage plants. It includes bridges,
tunnels, et cetera, that are not covered under the NCST. In addition, we are going
to learn a lot from buildings that have not just failed, but buildings that
were damaged, which again, is not covered under the NCST. So, we are applying
exactly the authorities that we think we need to to try to get the job done.
In terms of leadership, from day one, we have been
working with FEMA as part of their emergency response, as part of the National
Response Plan. Within the first week, we had a person go there, a roofing
expert go down with a group of 23 volunteers to Mobile, Alabama, to look at
roofing. We sent out a team, as I mentioned just a second ago, in terms of
reconnaissance, to try to look through the Gulf region, and we have now got
three teams that are under NIST coordination that are made up of 16 different
private and government organizations of experts, that are going around the Gulf
region, doing detailed assessments now.
So, we believe that we have been very aggressive in the
teams that we have sent down there, and using the appropriate authorities to
get as broad a view of the situation as possible.
Mr. EHLERS. Thank you. Does anyone else wish to
comment on that issue? Mr. Corbett.
Mr. CORBETT. Yes, thank you. I commented on this
during my testimony, and I still believe the NCST would have been useful down
there, especially given the fact that the problems we have had with the World
Trade Center investigation, you know, securing evidence, getting evidence early
on. I mean, we were very heavily reliant on computer models to tell us what
happened to the Twin Towers, because we lacked that physical evidence, because
there wasn’t an Act when the Trade Center was hit.
And I really believe that I would have preferred to
have a much more aggressive paratrooper type response from this, with
reconnaissance teams to figure out what are the buildings we have got to study,
you know. The Act, I believe, does include provisions for investigating
building disasters that had the potential for a large life loss. It doesn’t
have to be, my understanding that it has to have lives lost in the building.
So, I just—I would have hoped that we could have done under the Act. I
understand that they have other authorities to do that work, but I had always
hoped that NCST would skip to that same level as the NTSB, in terms of public
recognition, public understanding of what, you know, what we are looking for.
Mr. EHLERS. Dr. Jeffrey, let me just ask,
couldn’t you have done both? Couldn’t you have sent down an NCST team to
investigate those areas where they needed that type of authority, and used the
standard teams in other areas, where they needed their authority?
Mr. JEFFREY.
They are the same people. I mean, we have got the same technical experts, and
it is actually transparent. As long as they have the authorities to do the job,
and at any time that they need additional authorities, we will find those
additional authorities within our legal limits, to provide them that. But it is
the same people. It is the same technical experts.
Mr. EHLERS. And did you at all invoke the
authorities under the NCST?
Mr. JEFFREY. Not for Hurricane Katrina. As the
broad scope of what the investigation is actually fits better under other
existing NIST authorities.
Mr. EHLERS. But weren’t there some instances, as
Mr. Corbett is mentioning, where you should have used the authority of the
NCST?
Mr. JEFFREY. The authorities that we have got
would cover a lot of the situations. The unique authority that the NCST would
provide us is essentially the ability to legally require a release of
documentation. We have not reached a situation where that has been an issue for
the Hurricane Katrina situation.
If, at some point, we need subpoena authority, and it
fits under the legal guidelines of the NCST, we will, without hesitation, use
that authority.
Chairman BOEHLERT. Thank you. The gentleman’s
time has expired. I thank all of you for being resources for this committee. I
will end, Mr. Corbett, by answering your question. Where do we go from here? We
are going to—eternal vigilance. We are going to keep on top of this. We
developed the whole legislation to make possible this investigation. We are
going to keep on it.
Dr. Jeffrey, we fully expect you and your team at NIST,
we compliment you for all the good work you have done. You have got a lot more
to do, and we want to follow very closely your interaction with NIBS, and we
want to make sure you get recommendations with specificity to the ICC before
March. There are a lot of things we want to make sure of, and so, this is not
the end of the process. We are somewhere in the middle of the process. We are
going to go forward.
And Ms. Regenhard and the people on your committee, we
thank you for all that you have done. We are sorry that this work was
necessary, but it is, and we are going to do it to the best of our ability.
Thank you all very much. This hearing is adjourned.
[Whereupon, at 1:45 p.m., the Committee was adjourned.]
Appendix 1:
Answers to Post-Hearing Questions
ANSWERS TO POST-HEARING QUESTIONS
Responses by William Jeffrey, Director, National Institute of Standards and
Technology (NIST)
Questions submitted by the Majority
Q1. In your testimony you described how a staff member at NIST had been
assigned to each of NIST’s recommendations to ensure that they are carried out.
Please provide the Committee with a list of the recommendations that call for
an explicit code or standard change, a brief description of the steps in the
process of changing these codes and standards, where NIST is in this process,
and the code and standards groups with whom NIST is working on each
recommendation.
A1. Please see attachment A which identifies the affected codes and
standards by each of the WTC recommendations. NIST is currently pursuing action
on each of the WTC recommendations with an emphasis on meeting the March 24
deadline for the International Building Code.
Q2. In her testimony, Ms. McNabb said that the recommendation related
to elevators may be one of the most important. Do you agree? How difficult
would that be to codify and implement? Can you give the Committee a sense of
what specific next steps you would take to evaluate that recommendation and
what additional information you would need and from whom?
A2. NIST agrees that improved building evacuation overall should be
a priority. Buildings should be improved to include system designs that
facilitate safe and rapid egress, methods for ensuring clear and timely
emergency communications to occupants, better occupant preparedness for
evacuation during emergencies, and incorporation of appropriate egress
technologies. Recommendations 16, 17, 18, 19, and 21 address these. The use of
occupant evacuation and fire service elevators in emergencies is a key element
of these recommendations. Further, Recommendation 20 recommends that the full
range of current and next generation evacuation technologies should be
evaluated for future use, including protected/hardened elevators, exterior
escape devices, and stairwell descent devices, which may allow all occupants an
equal opportunity for evacuation and facilitate emergency response access. As
part of the implementation process for the WTC report recommendations, the
American Society of Mechanical Engineers is addressing the use of elevators for
occupant evacuation and fire service use.
Q3. How many people does NIST have working on WTC investigation-related
projects now that the main part of the investigation is wrapping up? Will the
Hurricane Katrina investigation take resources away from WTC follow-up?
A3. NIST has over 20 members of its staff continuing to work on WTC
investigation-related projects as part of its overall WTC response plan, which
includes a research and development program and a dissemination and technical
assistance program. A key part of this effort is promoting implementation of
the WTC recommendations. NIST staff continue to work vigorously with the
building and fire safety communities to assure that there is a complete understanding
of the WTC recommendations and to provide needed technical assistance in
getting them implemented. The Hurricane Katrina assessment will not take
resources from the WTC investigation follow-up.
Q4. In your testimony, you said that NIST’s recommendations are
achievable within ”a reasonable period of time.” How long will that be? Will
NIST set some benchmarks to guide its activities to promote implementation?
A4. NIST is committed, working through the various building code organizations,
to meeting the March deadline of the next code development cycle of the
International Code Council with as many of the recommendations as appropriate
and possible. I have assigned top priority for NIST staff to work vigorously
with the building and fire safety communities to assure that there is a
complete understanding of the recommendations and to provide needed technical
assistance in getting them implemented. We have identified specific codes,
standards, and practices affected by each of the recommendations in the summary
report for the WTC towers and already begun to reach out to the responsible
organizations to pave the way for a timely, expedited consideration of the
recommendations. We also have awarded a contract to the National Institute of
Building Sciences (NIBS) to convene a panel of building code experts to turn
appropriate recommendations into code language suitable for submission of code
change proposals to the two national model code developers.
The timeline for achieving the recommendations is
governed by the established development cycle for each of the impacted national
standards, codes, practice guidelines or regulations. For example, the model
codes follow a three-year development cycle with the next edition due in 2009.
The IBC also will issue a supplement in 2007 based on code change proposals
submitted by March 2006. The next edition of ASCE 7, a key standard, is due in
2010. Many other standards have an ad hoc development cycle.
Working in partnership with NIBS, NIST will target the
IBC’s 2007 supplement as well as the 2009 editions of the model codes. In
addition, NIST will work with ASCE and the other standards developers to target
their appropriate next edition.
In carrying out this work, NIST recognizes that not all
of the recommendations will have an impact on model building codes. Many will
impact standards that are referenced in model codes. Others will impact stand
alone standards used in practice but not referenced in model codes. A few will
impact practices, including education and training, that don’t have any impact
on codes and standards. In many cases, a standard will need to be developed
before the recommendation can be implemented in the model codes.
In addition, we will implement a web-based system so
that the public can track progress on implementing the recommendations. The web
site, which is already operational, will list each of the recommendations, the
specific organization or organizations (e.g., standards and code developers,
professional groups, State and local authorities) responsible for its
implementation, the status of its implementation by organization, and the plans
or work in progress to implement the recommendations. The web site is available
at http://wtc.nist.gov/recommendations/ and includes detailed
information on the work with NIBS. The web site will be updated with
information on plans and status by the end of January 2006.
Q5. In terms of how a building safety investigation should be
conducted, what are the three most important lessons derived from NIST’s
experience with World Trade Center buildings?
A5. The experience gained from the WTC investigation will help NIST
to better plan and execute future investigations. Examples of the challenges
include:
The need to identify, collect, index, review, and analyze massive amounts
of data from external sources.
The need to model and validate extraordinarily complex and multi-step
physical and failure processes in large-scale systems that required
advancements in the state-of-the-art and tested the limits of current
commercial software.
The need to design first person interview protocols, based on rigorous
social science methods, which could be used to draw definitive results and be
generalized to make well founded recommendations for improving evacuation and
emergency response procedures.
Q6. You testified that more data and research are needed to implement
some of NIST’s recommendations. In your statement you said ”there is a number
of research and development programs, for example, that come out in this
report. In fact, the report actually highlights where some of the R&D
efforts are. . .a lot of them fall under NIST to try to execute.”
Please summarize NIST’s research plan based on the WTC report recommendations.
A6. NIST has a number of on-going research and development projects
as part of its WTC response plan which address needs set forth in the WTC
report. These projects include:
Prevention of Progressive Collapse
Fire Resistance Design and Retrofit of Structures
Fire Resistive Coatings for Structural Steel
Fire Resistance of Uncoated Structural Steel with Improved Thermal
Properties
Fire Resistance of Building Partitions
Occupant Behavior and Egress
Emergency Use of Elevators
Equipment Standards for First Responders
Standard Building Information Models for Vulnerability Assessment
Technologies for Building Operations in CBR Attacks
Cost-effective Risk Management Tools
In addition, NIST has on-going research in areas
relevant to building and fire safety. These include:
High Performance Construction Materials and Systems: Enable
scientific and technology-based innovation to modernize and enhance the
performance of construction materials and systems.
Fire Loss Reduction: Enable engineered fire safety for people,
products, facilities; and enhanced firefighter effectiveness with 50 percent
reduction in fatalities.
Enhanced Building Performance: Provide the means to assure
buildings work better throughout their useful lives.
Q7. In written testimony submitted to the Committee, the American
Institute of Architects points to the lack of afire test facility in United
States—a facility large enough to test components of a tall building—as a major
shortcoming in the Nation’s ability to improve skyscraper safety. Is the
maintenance and operation of large-scale fire testing capability a NIST
responsibility, or does it lie elsewhere in the Federal Government or the
private sector? How do you respond to the AIA’s comments?
A7. NIST agrees with AIA that fire testing of large building
components under load conditions is a vital need that is not available in the
United States at this time. Recommendation #5 recognizes this need by stating
”A key step in fulfilling this recommendation is to establish a capability for
studying and testing the components, assemblies, and systems under realistic
fire and load conditions.”
As the Federal Government’s principal fire research
laboratory, NIST maintains some of the country’s best and most extensive fire
testing facilities. More than 400 fire experiments are performed each year in
the specially equipped, 27m (90 ft.) x 37m (120 ft.), Large Fire Research
Facility. However, this facility is not capable of conducting fire tests under
load conditions currently.
NIST has held discussions with the major fire testing
laboratories and the academic community to help define the requirements for
such a fire testing capability in the United States. In addition, NIST is
considering how its Large Fire Research Facility could be modified to meet this
national need.
Q8. Some critics argue that, since most fires that result in fatalities
occur in residential buildings, particularly homes, the focus on skyscraper
safety is a distraction from more common threats to life and property. How do
you respond to this criticism?
A8. We do not believe the focus of the NIST investigation into the
collapse of the buildings at the World Trade Center is a distraction from the
impact of or need to address the losses from residential fires. NIST has an
assigned responsibility to enable better fire safety for people, products, and
facilities; and to enhance fire fighter effectiveness and continue to place a
high priority on programs and activities that impact the threats from
residential fires. The U.S. annual losses attributable to fire are nearly 3600
lives, 22,000 serious injuries, $10 billion in direct property loss, and $128
billion total cost. NIST’s fire research programs work to: enable safer and
more effective fire service operations through new technology, measurement
standards, and training tools; develop effective strategies for
cost-effectively reducing the Nation’s fire losses (both human and financial)
by limiting fire growth and spread in and to residences; provide the
fundamental knowledge, algorithms, and measurement techniques necessary for
advancing engineered fire safety for people, products, facilities, and first
responders; and provide the infrastructure necessary to facilitate the transfer
of NIST-developed technology into practice through participation with codes and
standards organizations, maintenance of the premier international research
bibliography and electronic data for the fire community, and the development of
laboratory facilities with a premium on accurate, innovative and safe
large-scale fire experiments.
Q9. Testimony submitted to the Science Committee by the Building Owners
and Managers Association (BOMA) calls for the development of cost-benefit
analyses on the implementation of NIST’s recommendations. Do believe this is a
good idea? Why or why not? If so, what would NIST do to develop these analyses?
A9. The NIST recommendations do not prescribe specific systems,
materials, or technologies. Instead, NIST encourages competition among
alternatives that can meet performance requirements. The recommendations also
do not prescribe specific threshold levels; NIST believes that this
responsibility properly falls within the purview of the public policy setting
process, in which the standards and codes development process plays a key role.
Cost-to-benefit would be an inherent part of this process.
Only a few of the recommendations call for new
requirements in standards and codes. Most of the recommendations deal with
improving an existing standard or code requirement, establishing a standard for
an existing practice without one, establishing the technical basis for an
existing requirement, making a current requirement risk-consistent, adopting or
enforcing a current requirement, or establishing a performance-based
alternative to a current prescriptive requirement.
Q10. Attached is testimony submitted to the Committee from the Building
Owners and Managers Association (BOMA). Please review this testimony and
provide the Committee with comments on the issues that BOMA raises on the
recommendations.
A10. The review of the WTC recommendations contained in BOMA’s
testimony was received and reviewed by NIST during the public comment period
for the draft WTC reports. Based on the comments, it appears BOMA concurs with
or is in general agreement with 11 of the 30 recommendations, did not have a
comment on seven recommendations, was concerned with six of the recommendations
(e.g., due to cost or risk justification), considered two recommendations to be
vague, and requested clarification or did not adequately understand four of the
recommendations.
In a few cases, BOMA cited a lack of history to suggest
that tall buildings face increased risk. First, the excellent safety record of
tall buildings that is cited by critics is based mostly on data from roughly
the past 30 years. Such historical statistics, however, do not adequately
capture rare design events due to a lack of data at the tails of probability
distributions. For example, buildings which have useful lives of as much as 100
years are often designed for a 500-year hurricane or a 2,500-year earthquake.
Statistical data over, for example, a 30- to 50-year period would not be able
to adequately capture the rare events that should be considered in design.
Second, the aim of design is to anticipate rare design events in a rational
manner. Unanticipated events have surprised the design community in the past,
most notably after the 1994 Northridge earthquake when safety concerns were
identified in a widely used type of steel building and the industry had to
improve building codes and standards for such buildings. Third, for a given
threat, the risks increase with building height since the consequences of
the threat become more severe with height.
Some of the WTC recommendations were considered by BOMA
not to be adequately specific. The NIST recommendations do not prescribe
specific systems, materials, or technologies. Instead, NIST encourages
competition among alternatives that can meet performance requirements. The
recommendations also do not prescribe specific threshold levels; NIST believes
that this responsibility properly falls within the purview of the public policy
setting process, in which the standards and codes development process plays a
key role. The issue of specificity will be resolved as part of NIST’s ongoing
efforts with NIBS in support of model code changes (one of the NIBS building
code experts is a BOMA representative) and with standards organizations.
The basis for some of the WTC recommendations was not
adequately understood by BOMA. NIST is working actively with the standards,
codes, and industry organizations, including BOMA, to develop a shared
understanding of the basis for the recommendations and to provide needed
clarification and justification. The private sector inputs will lead to
requirements that are appropriate for adoption in standards and codes.
In a few instances, BOMA suggests an incremental
approach to adopting the recommendations. NIST believes that strong industry
commitment to working such issues will lead to early implementation of
acceptable solutions.
Please see the answer to Question 9 that address cost
concerns with a few of the recommendations.
Questions submitted by the Minority
Q1. Dr. Jeffrey, what interactions and information has NIST shared with
the General Services Administration (GSA) about the findings of its World Trade
Center investigation. Could this information be useful for the development of
standards for federal buildings at risk such as embassies?
A1. NIST has had several interactions with GSA on its WTC response
plan, including the WTC investigation. Most recently, six members of the GSA
staff attended the WTC Technical Conference held at NIST September 13–15, 2005.
GSA also is co-funding a multi-year research and development project at NIST on
emergency use of elevators. NIST has an agreement with GSA to implement a
demonstration project in a federal building where protected occupant evacuation
and fire service elevators will be installed, meeting all of the proposed
standards and code requirements based on the WTC investigation. In addition,
NIST is working with GSA to collect occupant behavior data during evacuation
drills within GSA buildings. NIST has working relationships with GSA and State
Department staff on its research and development program to prevent progressive
collapse in buildings. Staff from these agencies have participated in NIST
workshops and provided reviews of draft guidance documents.
Q2. Dr. Jeffrey, NIST believes that its recommendations are achievable
within a reasonable period of time. In your view, what is the shortest time
period that the NIST recommendations could be implemented?
A2. NIST is committed, working through the various building code
organizations, to meeting the March deadline of the next code development cycle
of the International Code Council with as many of the recommendations as
possible. I have assigned top priority for NIST staff to work vigorously with
the building and fire safety communities to assure that there is a complete
understanding of the recommendations and to provide needed technical assistance
in getting them implemented. We have identified specific codes, standards, and
practices affected by each of the recommendations in its summary report for the
WTC towers and already begun to reach out to the responsible organizations to
pave the way for a timely, expedited consideration of the recommendations. We
have also has awarded a contract to the National Institute of Building Sciences
(NIBS) to convene a panel of building code experts to turn appropriate
recommendations into code language suitable for submission of code change
proposals to the two national model code developers.
The timeline for achieving the recommendations is
governed by the established development cycle for each of the impacted national
standards, codes, practice guidelines or regulations. For example, the model
codes follow a three-year development cycle with the next edition due in 2009.
The IBC also will issue a supplement in 2007 based on code change proposals
submitted by March 2006. The next edition of ASCE 7, a key standard, is due in
2010. Many other standards have an ad hoc development cycle.
Working in
partnership with NIBS, NIST will target the IBC’s 2007 supplement as well as
the 2009 editions of the model codes. In addition, NIST will work with ASCE and
the other standards developers to target their appropriate next edition.
In carrying out this work, NIST recognizes that not all
of the recommendations will have an impact on model building codes. Many will
impact standards that are referenced in model codes. Others will impact stand
alone standards used in practice but not referenced in model codes. A few will
impact practices, including education and training, that don’t have any impact
on codes and standards. In many cases, a standard will need to be developed
before the recommendation can be implemented in the model codes.
In addition, we will implement a web-based system so
that the public can track progress on implementing the recommendations. The web
site, which is already operational, will list each of the recommendations, the specific
organization or organizations (e.g., standards and code developers,
professional groups, state and local authorities) responsible for its
implementation, the status of its implementation by organization, and the plans
or work in progress to implement the recommendations. The web site is available
at http://wtc.nist.gov/recommendations/ and includes detailed
information on the work with NIBS. The web site will be updated with
information on plans and status by the end of January 2006.
Q3. What specific plans does NIST have to inform local officials about
the safety implications of it recommendations?
A3. NIST has been and is reaching out to all communities involved
in building and fire safety. We have strongly urged that immediate and serious
consideration be given to these recommendations by the building and fire safety
communities in order to achieve appropriate improvements in the way buildings
are designed, constructed, maintained, and used and in evacuation and emergency
response procedures—with the goal of making buildings, occupants, and first
responders safer in future emergencies.
We are also strongly urging building owners and public
officials to (1) evaluate the safety implications of these recommendations to
their existing inventory of buildings and (2) take the steps necessary to
mitigate any unwarranted risks without waiting for changes to occur in codes,
standards, and practices. We are urging State and local agencies to rigorously
enforce building codes and standards since such enforcement is critical to
ensure the expected level of safety. Unless they are complied with, the best
codes and standards cannot protect occupants, emergency responders, or
buildings.
NIST experts have been meeting with state and local
officials over the past year providing them with information on NIST’s
investigation. In September, NIST held a conference attended by over 200
experts from standards developing organization, state and local officials, fire
fighting organizations and builders. Throughout the course of our
investigation, NIST’s work has received major media coverage—including by media
outlets followed closely by building, fire, and other emergency preparedness
and response officials.
Q4. Dr. Jeffrey, what will be the impediments to translating the NIST
recommendations to improvements to building codes and emergency response and
evacuation procedures?
A4. There are a number of features intrinsic to the building and
fire safety regulatory system in the United States that affect the speed and
outcome of the change process for codes, standards, and practices.
First, building and fire safety regulations, promulgated and enforced by
State and local jurisdictions, are based on national model codes developed by
private sector organizations.
Second, the model codes adopt by reference standards that are developed
by a large number of private sector standards development organizations.
Third, the process and schedule for consideration of changes differ for
each code or standard.
Fourth, changes to codes and standards are based on the review and
consensus approval of committees comprising a spectrum of interests and
perspectives.
The above process accommodates the inputs and concerns
of a wide range of groups—including architects, engineers, developers, owners,
operators, users, emergency responders, State and local regulatory officials,
policy-makers, and concerned citizens. Incorporating these inputs into
regulations is complex, but the system has evolved into one that balances the
sometimes contradictory desires of the various groups while providing for
public safety and welfare.
NIST has identified 37 specific national model codes,
standards, practice guidelines, or regulations impacted by its recommendations.
We have called on the various organizations for a timely consideration of these
recommendations. We have hosted a conference where every major standards and
code developer was represented, we have hired NIBS to assist in converting the
appropriate recommendations into draft code language, and we are working with
organizations representing local and State authorities to assist in their
adoption and enforcement.
Q5. Dr. Jeffrey, how much
funding will NIST require to carry out its follow-on duties in the area of
research during the next three years?
A5. The President’s Fiscal Year 2006 budget requested $2M for NIST
to carry out research to enable development and adoption of cost-effective
technical solutions to enhance safety and avoid major disasters through
improved first responder equipment, better evacuation and emergency response
procedures, and risk-sensitive national practices for building safety. The FY
2006 Commerce, Justice, State and Science Appropriations Act does not
contain funding for this request.
Q6. Dr. Jeffrey, for two years the National Construction Safety Team
Advisory Committee has reiterated that successful implementation of the National
Construction Safety Team (NCST) Act is dependent upon the creation of a NCST
office funded at $2 million and the establishment of a $2 million reserve fund.
Why hasn’t NIST acted upon these recommendations in its budget request?
A6. NIST believes that it has responded appropriately to all
significant disaster events worthy of investigation. The President’s Fiscal
Year 2006 budget requested $2M for NIST to carry out research to enable
development and adoption of cost-effective technical solutions to enhance
safety and avoid major disasters through improved first responder equipment,
better evacuation and emergency response procedures, and risk-sensitive
national practices for building safety. The FY 2006 Commerce, Justice, State
and Science Appropriations Act does not contain funding for this request.
Q7. Dr. Jeffrey, the National Construction Safety Team (NCST) Advisory
Committee has recommended that the Act be invoked after any natural disaster
such as earthquakes, hurricanes and other windstorms, floods and wildfires. Why
didn’t you invoke the Act after Hurricanes Katrina, Rita and now Wilma? In
their reports to Congress the Advisory Committee has generally been critical
that NIST has not invoked the Act more often. Why do you disagree with the
recommendations of the Advisory Committee?
A7. NIST authorities are ”tools” by which we can conduct an
investigation. We will always pick the best tool to get the job done. In
response to Hurricane Katrina, NIST is using authorities that are broader than
under the NCST Act and better fit the specific situation.
In addition to major buildings and residential
structures, the current effort involves key infrastructure facilities (electric
power, water and wastewater, oil and gas, and communication) and transportation
(ports, pipelines, bridges, roads, and airports) which are not covered by the
NCST Act.
Moreover, NIST is interested in assessing the
performance not only of facilities that ”failed” but also those that
sustained ”damage”—and hence not covered by the NCST.
In addition, NIST is assessing the damage not only to
structures but also other building systems (e.g., the roofing system, fire
safety, and HVAC) which are not specified in the Act.
Q8. Dr. Jeffrey, some of Ms. Regenhard’s and Dr. Corbett’s criticisms
of NIST’s reluctance to use the full authority of the National Construction
Safety Team (NCST) Act are echoed by the NCST Advisory Board. What is your
response?
A8. NIST believes that it has used appropriately the authority of
the National Construction Safety Team Act. NIST has obtained all
available documents and evidence essential to carrying out a thorough and
credible technical investigation. NIST believes the findings from its
investigation are well justified on the basis of those documents and evidence.
A large number of individuals and organizations
provided materials and documents, including the Port Authority of New York and
New Jersey, Silverstein Properties, the City of New York and its departments,
the manufacturers and fabricators of the building components, the companies
that insured the WTC towers, the building tenants, the aircraft manufacturers,
the airlines, the public (including survivors and family members), and the
media. NIST officials reviewed tens of thousands of pages of documents,
conducted interviews with over a thousand people; and analyzed 236 pieces of
steel that were obtained from the wreckage. At no time was NIST reluctant to
use the full authority of the NCST.
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ANSWERS TO POST-HEARING QUESTIONS
Responses by Nancy McNabb, Director, Government Affairs, National Fire
Protection Association
Questions submitted by the Majority
Q1. In your testimony, you said that NIST takes some positions on
”controversial and sometimes unpopular subjects.” What do you have in mind?
What should NIST do to make sure that controversy doesn’t block progress?
A1. I would point to subjects such as progressive collapse design,
wind tunnel testing and the recommendation to include fire protection engineers
on the design team. NIST has set an agenda for codes and standards
organizations and the private sector to determine how best to manage change (if
any) in all 30 areas. NIST can best serve as an advisor to those groups and
when necessary, fund research in the private sector to establish additional
information and possible solutions.
Q2. In your testimony you stated that ”the need to conduct more research
in numerous areas is clear.” What are the top three priority areas where
additional research and data are needed? Which specific entities should be
doing this research? Which recommendations are most hampered by lack of data?
A2. Elevator Use: These criteria are very close to being
finalized. The reality is that elevator use is the only practical way to ensure
timely building evacuation in very tall (40-story) buildings. Additional
research may also benefit disabled occupants by providing equal access to self
evacuation capability in many types of multi-story buildings. The current
ASME/NIST research project, in which NFPA has been a significant participant,
has been underway since 2003.
Coordinated communication capabilities: This is an Achilles heel in most
major events including many high rise fires. Major natural disasters also
present communication challenges between the various responding entities.
Research groups: NFPA and IEEE.
Fire test procedures/materials: Reliability of the test procedures,
materials and field applications are all interrelated. Innovative materials
have potential use, but progress on all of these issues may be stymied absent
additional data demonstrating clear cost effective advantages associated with
such new materials or deficiencies with the current materials and test methods.
Research groups: FPRF/ASTM/UL
Q3. Building trade associations have raised concerns that the
implementation of some of the recommendations will be expensive. Which of the
recommendations do you believe will be most costly? Would these costs be
justified in terms of their expected outcomes?
A3. Building trade associations and building associations such as
BOMA are likely concerned that any change to building safety requirements will
increase cost. Short-term costs associated with building safety should not be
the prime concern. BOMA’s tenants and the public at large are a good barometer
of how safe our buildings need to be and they do not generally object to
initial costs for providing long-term building and life safety.
Q4. In written testimony submitted to the Committee, the American
Institute of Architects points to the lack of a fire test facility in United
States—a facility large enough to test components of a tall building—as a major
shortcoming in the Nation’s ability to improve skyscraper safety. Is the
maintenance and operation of large-scale fire testing capability a NIST
responsibility, or does it lie elsewhere in the Federal Government or the
private sector? How do you respond to the AIA’s comments?
A4. The private sector should retain control and operation of the
largest fire test facilities. NIST may best work in a private/public sector
partnership role to assist with funding of expanded test facilities at
Underwriters Laboratories (UL) or Factory Mutual (FM) or preferably both.
Q5. Testimony submitted to the Science Committee by the Building Owners
and Managers Association (BOMA) calls for cost-benefit analyses to be developed
on the implementation of NIST’s recommendations. Do you believe this is a good
idea? Why or why not? If so, who should develop these analyses?
A5. Cost-benefit forecasts for safety related issues are a no win
approach to changing codes, standards and protocols. As repeatedly expressed by
BOMA at federal, State and local hearings, their primary concern seems to be
initial construction costs rather than long tern sustainability or safety of
their tenants. Cost-benefit can almost always be used to argue a change in any
direction. It is NFPA’s view that cost benefit analyses should not be a primary
consideration in the debate for implementation of these potential changes.
Q6. Which recommendations do
you think most require action by the Federal Government, particularly with
respect to research, and which agencies should be responsible?
A6. At this point, it is NFPA’s view that the private sector, with
funding from federal agencies (including NIST) are in the best position to
pursue the level of detail needed to move towards change. Competition to
develop better materials, methods and designs can be driven by code-related
change and social awareness; no one entity should have a sole source advantage
for building research.
Questions submitted by Democratic Members
Q1. Ms. McNabb, your organization has moved forward on a number of the
NIST recommendations. How have the NFPA code changes been greeted by the user
community—for example, states and localities and the building industry?
A1. NFPA code changes have been met with mixed reaction by various
interest groups. For example, various groups, including the U.S. General
Services Administration (GSA) filed appeals against some of the new changes
such as the provisions to increase the stair width for certain buildings.
NFPA’s Building Code has been met with resistance by a number of jurisdictions
and trade associations representing the economic building owner interests. Many
of these groups are designated as ”Code Partners” of the ICC thus they align
themselves with technical provisions that are more traditional and in many
cases, several years behind what the NFPA codes require. First responders and
tenant representatives have embraced NFPA code provisions as they reflect the
state of the art. The NFPA code development process ensures broad
representation for all of the construction community stakeholders including first
responders, tenant representatives and those designated as ”code partners.”
Q2. Ms. McNabb, you mention that ”it is likely, that after a through
and detailed analysis of the final recommendations, there may not be sufficient
data, detail or compelling evidence to promulgate a change to a particular
safety code or standard.” What is the timeframe for this analysis? Also, which
of the NIST recommendations do you think most likely to fail this analysis?
A2. Some of the analyses will be complex such as Recommendation 1
concerning progressive collapse criteria. We believe that work will take
several years because it requires the development of a design approach
(supported by analytical tools and practical guidance) to determine how much of
a building’s structural support system will be lost and an expectation of how
long the structure must remain standing.
The recommendations concerning fire test protocols will
require approximately two years of review. At present, the main concern seems
to be that ”the test procedures have been used for 90 years,” the implication
being that we should be doing something different. There is no obvious reason
to change the fire test protocols; after thorough study and review, we may
determine that the status quo is acceptable.
Q3. Ms. McNabb, could you give us an idea of the follow-on work
required before we can arrive at an appropriate ”best practices” for the
built environment?
A3. Best practices are always moving forward. In the last few
years, changes to the NFPA codes such as increases to hourly fire resistance
ratings for structural systems in high rise buildings, wider stairs and
provisions that have been in our codes for a longer time such as requirements
for automatic sprinkler retrofits in high rise buildings, are all examples of
best practices for the built environment that were initially determined by NFPA
technical committees.
Code changes such as greater use of elevators for
building evacuations by occupants and first responders will likely be ready for
consideration in the code change cycle within the next year. One issue that
must be addressed is that of liability. After decades of indoctrinating
building occupants that use of the elevator in a fire emergency is prohibited,
there will naturally be concerns about reversing that message. Likewise,
concerns related to elevator equipment malfunction during emergency conditions
must be overcome.
Mass notification systems discussed in Recommendations
22 and 23 will be a reality in 2006 when the technical provisions for these
systems have been proposed to be incorporated in the next edition of NFPA 72,
National Fire Alarm Code.
The largest obstacle to establishing best practices
will be the extent, if any, to which such code changes will affect the existing
building stock. Such implementations are often initially expensive or
technically infeasible. The U.S. General Services Administration (GSA) could
provide an example for the commercial building industry by embracing this
opportunity to include new building safety enhancements in their construction
plans and leasing agreements.
ANSWERS TO POST-HEARING QUESTIONS
Responses by James R. Harris, President, J.R. Harris and Company; Member,
American Society of Civil Engineers
Please note that these responses are, in general,
confined to the subject of structural engineering. Some of the recommendations
made by NIST concern subjects outside the expertise of civil and structural
engineers.
Questions submitted by the Majority
Q1. In her testimony, Ms. McNabb said that the recommendation related
to elevators may be one of the most important. Do you agree? How difficult
would that be to codify and implement? Can you give the Committee a sense of
what specific next steps you would take to evaluate that recommendation and
what additional information you would need and from whom?
A1. Most of the issues surrounding this recommendation do not
concern structural engineering. The primary structural issue here is the
provision of strong shaft walls, and that is not particularly difficult. Ms.
McNabb may have been referring to protection of the elevator and its controls
from fire where it would be intended to use the elevator to pass through
stories with uncontrolled fire. This is a phenomenon that should be tested to
verify potential solutions before any code requirement is implemented, but it
is not, fundamentally, a structural issue.
Q2. In your testimony, you suggested that codes are not necessarily the
best way to promote changes in practice. What is the problem with using codes?
What are the alternatives? What NIST recommendations should be implemented
through means other than codes?
A2. Codes are a useful and effective mechanism to assure a minimum
level of protection where proven technologies exist. However, they are not
particularly effective where the issue requires development of new technology.
I will use performance-based design for fire resistance as an example. Here the
codes can be used as an incentive, by allowing the possibility for
performance-based design, but the method will not be an effective tool until
several things happen: an extension of present knowledge through targeted
research, a critical mass of the profession becomes properly educated and
trained to implement the methods, and a change in the legal climate to remove
disincentives to this expansion of professional practice. This will require
changes in the basic curriculum to educate engineers of the future as well as a
broad continuing education program to train practicing professionals.
The interaction of professional practice and tort law
is a matter of public policy that requires careful consideration before the
potential benefits of performance based fire design can be realized.
Prescriptive codes effectively shield structural engineers and architects from
tort, and the prescriptive codes for fire resistance do deliver buildings with
successful fire resistance in the vast majority of cases. There is no incentive
for engineers to become responsible for fire safety and there is a major
disincentive in the form of potential liability for fire damage and injury in a
building designed to a performance standard. These obstacles need to be
removed.
Q3. You testified that data and research are needed to implement some
of NIST’s recommendations. What are the top three priority areas where
additional research and data are needed? Which specific entities should be
doing this research? Which recommendations are most hampered by lack of data?
A3. From the structural engineering point of view three areas do
stand out: improving the general structural integrity of building (improve the
resistance to progressive collapse), improving the design of structures to
resist wind loads, and performance-based design for structural response to
fire. The research in the first area is likely to be a long-term effort before
tools are developed that will be usable in routine design practice, but it is
highly likely to bear fruit. Structural connection details that are faster,
better, cheaper can readily be developed in a program of academic research,
large scale testing, and support of the creation of technical provisions in
codes and standards. The steel connection details for improved seismic resistance
that emerged from FEMA’s SAC project are an example of what can be done for a
relatively small outlay (overall, this research program will likely be larger,
owing to the many different types of construction that must be considered).
Progressive collapse resistance also needs a component of social science
research in order to better define the needs and our objectives. The second
area will be enhanced if funds are appropriated for the already authorized
National Windstorm Mitigation Program. Wind effects on buildings are a complex
topic that has long been shorted in the federal research budget. NIST’s
findings and the hurricanes of the past two years should persuade the Federal
Government to be proactive in supporting wind research. The third area requires
close coordination between specialists in fire and structural engineering in
order to assure that the two professions are communicating meaningfully, and
the disincentives described in the answer to Question 2 should be addressed
before large research programs here are funded.
Q4. You expressed a concern about the ”unreasonable acceleration” of
the codes process. What’s your concern? Do you see any indication of that
happening?
A4. The concern is that premature attempts to change building codes
without thorough vetting in the voluntary standards communities and without
compelling substantiation could create somewhat of a backlash or stigma around
these recommendations, which could ultimately delay widespread implementation.
Realize that the model building codes, and the standards upon which they rely,
are not developed by elected governmental bodies operating on a simple majority
vote. They are developed in voluntary bodies that operate with a formal
consensus building procedure, which is necessary to generate the support in
industry for successful implementation of change, and significant change
requires significant time. In my opinion the objectives of the NIBS panel
should be to coordinate efforts among the many standards developing
organizations and to provide a forum for discussion of issues across technical
disciplines. For most of the issues of concern in the structural engineering
community it is premature to prepare changes to model building codes.
Q5. Building trade associations have raised concerns that the
implementation of some of the recommendations will be expensive. Which of the
recommendations do you believe will be most costly? Would these costs be
justified in terms of their expected outcomes?
A5. In the long run those costs associated with construction,
maintenance, and economic use of facilities will far overrun the initial costs
of educating and training engineers, architects, and building officials,
although in the short run the latter costs will be significant and will likely
slow implementation. Reasonable resistance to progressive collapse will not
cost much for some structural systems, while in others it will be very costly,
which will change the relative market share among competing products and
systems for those structures for which resistance to progressive collapse is
deemed necessary. Such changes are usually slow to come to fruition. The
imposition of a limit on lateral drift under wind (Recommendation Number 3)
will increase the cost of structural framing. Changes that affect the economic
use of space, such as the provision of larger egress paths (stairwells) can
impose very real costs. Some changes hold the potential for cost savings, such
as improved understanding of wind effects on buildings and the use of a
performance approach for design for fire resistance. It is likely that the
impact on construction cost for those items that do increase the cost will be
limited to a few percent of construction cost. Where these kinds of change are
applied equally to all competing products in a market, the change may not be as
slow.
Q6. In written testimony submitted to the Committee, the American
Institute of Architects points to the lack of a fire test facility in United
States—a facility large enough to test components of a tall building—as a major
shortcoming in the Nation’s ability to improve skyscraper safety. Is the
maintenance and operation of large-scale fire testing capability a NIST
responsibility, or does it lie elsewhere in the Federal Government or the
private sector? How do you respond to the AIA’s comments?
A6. The lack of a facility large enough to test structural
components of practical size is not limited to tall buildings. Common
components of low-rise buildings suffer the same problem. Some private sector
furnaces in this country have closed due to a lack of economic demand. Canada
and Japan are examples of countries with larger facilities, and those
facilities are government facilities. That does not mean that a government test
facility is the only possible solution here, but at the very least there will
be a need for government support and incentives. International cooperation
should be explored.
Q7. Testimony submitted to the Science Committee by the Building Owners
and Managers Association (BOMA) calls for cost-benefit analyses to be developed
on the implementation of NIST’s recommendations. Do you believe this is a good
idea? Why or why not? If so, who should develop these analyses?
A7. Some aspects of limited cost analysis is commonly necessary to
persuade members of standards bodies to implement changes, however, such
analyses are rarely a rigorous economic study, especially on the benefit side.
It is not easy to assess the true cost of new technology before implementation.
Benefits are particularly difficult to predict. The normal approach is to rely
on the judgment of informed professionals developed in a consensus building
process. FEMA funded one moderately large cost study in the early 1980’s as the
Nation was considering the adoption of a new generation of provisions for
seismic safety in construction. A cost-benefit analysis on the same topic has
recently been completed at the request of the Congress. Requiring formal
cost-benefit analysis for every change is not typical in the field of building
codes and design standards, and it would probably unduly slow implementation.
Q8. Which recommendations do you think most require action by the
Federal Government, particularly with respect to research, and which agencies
should be responsible?
A8. The bulk of the research described in the answer to Question 3
will require federal funding. Among the agencies that I would expect to fund
such research are NSF, NIST, and FEMA. NIST has historically not been able to
fund significant external research in the building sciences area, and FEMA’s
future role is not well defined as it adapts to its incorporation inside DHS.
Perhaps most importantly, the funding for structural engineering research in
the CMS (Civil and Mechanical Systems) area of NSF is projected to be reduced
by a mere pittance compared to past levels. This situation must be reversed to
see real progress in developing the improvements recommended by NIST.
Q9. In your testimony regarding Recommendation #1 on progressive
collapse, you said that the recommendation needed further study of its
application and its effects upon the profession because of the various design
thresholds involved. Please explain what you mean by this, what the major
points of the study would be, and who should carry out this work.
A9. NIST has tentatively proposed a definition of high-rise
buildings at 420 feet, which is apparently related to common limitations on
pumping water for fire suppression. There has been discussion of using this
same threshold for application of a requirement for resistance to progressive
collapse. It is not clear why the two topics need to be correlated. There are
many lower buildings that should probably have such resistance. The General
Services Administration has been requiring a measure of resistance to terrorism
attack and progressive collapse for most federal courthouses built in the past
several years, and the Department of State has been doing the same for most of
our new overseas embassies, yet none of these buildings would be more than 420
feet tall. Considerations beyond occupancy and size, including location, will
likely be involved. A careful, and probably long, public discussion is needed
to achieve a comprehensive classification of buildings for which this
resistance is going to be required by law (as opposed to being implemented by
option of the owner). This discussion should be supported by research in the
social science, economic policy, and insurance areas. Congress should lead at
least some of this public discussion, because the Federal Government is
obviously spending heavily in response to the September 11 attack, and
improving our resistance to other terrorist attacks should be guided in part by
intelligent approaches to limiting such outlays in the future.
Questions submitted by Democratic Members
Q1. Dr. Harris, what is the timeframe for your organization to act upon
the NIST recommendations? How long will it take for any ASCE code revisions to
occur?
A1. These recommendations will be a focus of our activities for
several years to come. We are in the process of collecting public comment on
our new standard for the use of wind tunnel testing in determining design wind
loads on buildings, which is responsive in part to a NIST recommendation. In
that process we have formed an ad hoc committee to give specific consideration
to making our new standard even more responsive to that recommendation. We
expect the standard to be formally issued in 2006. We have just issued the 2005
edition of our standard Minimum Design Loads for Buildings and Other
Structures. This standard defines basic wind loads, among other actions on
structures, and contains guidance for resistance to progressive collapse. The
committee will be reformed in 2006 as we prepare to issue anew edition in 2010,
and plans are already underway to focus specific task groups on the NIST
recommendations. Should specific items gather the necessary consensus in time,
we will be prepared to issue a supplement to our 2005 edition. While it is
reasonable to predict that the 2010 edition will have changes stimulated by the
NIST recommendations, it is also true that there will probably be continuing
advancements in knowledge and therefore in our standards for many years after
that. We will also plan to update our standard Structural Design for Fire
Conditions as more information about performance-based design is developed.
We also have a large number of technical committees that operate to advance the
state of knowledge in a many areas of interest to structural engineers, and we
will be encouraging such committees with a focus on structural integrity and on
wind loads to carefully review the research needs implicit in the NIST
recommendations.
Q2. Dr. Harris, ASCE believes that some of the NIST recommendations
need further clarification and discussion. What interaction did your
organization have with NIST during the course of its investigation and while it
was drafting this report? For example, did ASCE participate in the public
sessions that NIST held in the course of its investigations? Since the report
has been made public have you had any follow-up conversation with NIST? Do you
feel that NIST has been un-responsive to your concerns?
A2. Recall that our World Trade Center Building Performance
Study issued in September 2002 as FEMA report 403 identified many issues
needing further study and served as a starting point for the NIST study. Key
members of our team behind FEMA 403 provided input as the NIST program was
being defined, and many ASCE/SEI members have been involved with review of the
NIST work at many stages. During this year a select group from our Board of
Governors had a day-long briefing from the NIST leadership team in the spring,
then an electronic update shortly before the draft was issued as the
conclusions were firmed. We submitted comments on the draft during the summer,
and we have had one additional briefing as NIST has prepared strawman proposals
for changes to the International Building Code. It is worth repeating
that we believe NIST’s study is well done and provides much to advance the
cause of public safety. NIST actively solicited our comments and has listened
carefully and respectfully.
Q3. Dr. Harris, one of the recommendations that ASCE strongly endorses
is continuing education. This seems an important recommendation as structural
materials and techniques have changed so dramatically over the past twenty
years. Currently, what type of courses does ASCE sponsor for the continuing
education of its members? I also noticed from your biography that you are a
certified Professional Engineer, what does the National Society of Professional
Engineers do in the area of continuing education for its members? What sort of
continuing education courses do you think are needed?
A3. ASCE has an active continuing education program. Among the
popular courses for structural engineers currently being offered are:
Analysis and Preservation of Historic Bridges
Bridge Inspection
Bridge Rehabilitation
Cable-Stayed Bridges: Key Design, Construction, and Management Issues
Connection Design for Steel Structures
Dam Safety and Rehabilitation
Design and Renovation of Wood Structures
Design and Strengthening of Shallow Foundations for Conventional and
Pre-Engineered Buildings
Design of Foundations for Dynamic Loads
Design of Metal Buildings: Avoid Pitfalls in Specifying and Procuring
Design, Construction, and
Renovation of Masonry Structures
Designing Aluminum Structures
Earth Retaining Structures Selection, Design, Construction and Inspection
Earthquake Induced Ground Motions
Fundamentals of Earthquake Engineering
Highway Bridge Design, Evaluation and Strengthening Using LRFD
Joints, Bearings and Devices (JBDs)
Post Tensioning Construction and Design
Probabilistic Design
Progressive Collapse Mitigation: Practical Analysis Methods & Proven
Solutions
Security Risk Management Procedures: Countering Terrorism and Other
Threats
Seismic Design and Performance of Building Structures
Seismic Design of Highway Bridges
Structural Condition Assessment of Existing Structures
Structural Design of Buildings and Industrial Facilities for Bomb Blast
Loads and Accidental Explosions
Structural Design of Industrial Facilities
Structural Design of Residential Buildings Using the 2003 International
Residential Code
Structural Renovation of Buildings
Structural Vibration Analysis, Design and Troubleshooting
Wind Loads for Buildings and Other Structures
We also have several popular Webinars, and we are
planning a new series of courses illustrating the new edition of ASCE 7 that we
plan to take to a large number of cities. I am not as familiar with the
continuing education program of NSPE, but it is my impression that their
continuing education can be divided into two general categories: technical
information for young engineers who are preparing for licensing exams and less
technical information for licensed professionals, where the emphasis tends to
be on ethics, professional practice, and similar topics. I would be happy to
forward a request for information to NSPE so that you get more accurate
information about their programs, if you desire. With respect to changes in
continuing education for the future as influenced by the NIST recommendations,
I believe that analytical prediction of structural performance under fire
conditions is a subject that will be in great demand. More detail about this
subject is in our answer to the general questions for the record.
I would also like to point out that I am registered,
not certified, as a professional engineer by the State of Colorado, among
others, and registered as a structural engineer by the State of California. Our
profession encourages State governments to recognize that structural
engineering is a profession essential to protecting public safety, that it
requires highly trained specialists with substantial experience for success in
the endeavor to protect the public, and that these facts justify separate
licensure of structural engineers.
ANSWERS TO POST-HEARING QUESTIONS
Responses by Glenn Corbett, Assistant Professor of Fire Science, John Jay
College of Criminal Justice; Member, NIST National Construction Safety Team
Advisory Board
Questions submitted by the Majority
Q1. In her testimony, Ms. McNabb said that the recommendation related
to elevators may be one of the most important. Do you agree? How difficult
would that be to codify and implement? Can you give the Committee a sense of
what specific next steps you would take to evaluate that recommendation and
what additional information you would need and from whom?
A1. Yes, I agree that the use of elevators for egress in very
tall high-rise buildings is an important recommendation. Several industry
meetings have been held and research has already been conducted on this topic
(some of it prior to September 11th, 2001). 1 would suggest that NIST convene a
summit to establish what, if any, ”research holes” still exist and quickly
fill them. I believe we could swiftly move forward with a model code
recommendation if NIST takes this proactive stance.
Q2. If NIST had taken more of a ”detective” approach to its work, how
might that have affected its recommendations?
A2. If NIST had taken a more ”detective” approach, we may have
obtained more facts that are critical for gaining support for the code
recommendations. In addition, other code-related issues may have surfaced.
Q3. In terms of how a building safety investigation should be
conducted, what are the three most important lessons derived from NIST’s
experience with World Trade Center buildings?
A3. The NCST lessons of the WTC investigation (and the Station
Nightclub) are: quickly get to the scene of the incident, quickly secure
evidence (critical steel was lost at the WTC prior to enactment of the NCST),
swiftly establish an investigation plan, utilize a ”can-do” legal staff that
aggressively gains access to information and physical evidence, and move
forward to the ultimate goal of the investigation: specific recommendations to
changes in codes and practices.
Q4. The WTC report concludes that some recommendations require more
data and research to be implemented. What are the top three priority areas
where additional research and data are needed? Which specific entities should
be doing this research? Which recommendations are most hampered by lack of
data?
A4. In my opinion, the three priority areas are: 1). the
development of a new fire resistance protocol to replace the ASTM E–119 test
standard, 2) the development of more robust fire-resistive coatings for steel
members, 3) the development of a reliable radio communications system for
emergency responders in high-rise and other ”problem” locations. While NIST
could be a coordinator for such research, there are other governmental and
private sector organizations that should be involved. In my opinion, the first
two priority areas that I have identified (fire resistance testing and fire
resistive coatings) are the recommendations most hampered by lack of data.
Q5. Building trade associations have raised concerns that the
implementation of some of the recommendations will be expensive. Which of the
recommendations do you believe will be most costly? Would these costs be
justified in terms of their expected outcomes?
A5. More often than not, new code provisions have a cost associated
with implementation. Some of the recommendations will likely be expensive.
Although I am not a structural engineer, it is my understanding that the
”progressive collapse” recommendation is one of the most costly. Although
that may be the case, the loss in terms of lives of another progressive collapse
like the WTC disaster or the recent Madrid high-rise fire is totally
unacceptable.
Q6. In written testimony submitted to the Committee, the American
Institute of Architects points to the lack of a fire test facility in United
States-a facility large enough to test components of a tall building—as a major
shortcoming in the Nation’s ability to improve skyscraper safety. Is the
maintenance and operation of large-scale fire testing capability a NIST
responsibility, or does it lie elsewhere in the Federal Government or the
private sector? How do you respond to the AIA’s comments?
A6. I agree that a test facility that tests all components as a
group (similar to a facility in Great Britain) is desperately needed. Then
current ASTM E–119 test standard is not realistic and needs to be replaced.
Unfortunately, there is no incentive for the private sector to develop such an
expensive facility. Despite the fact that building safety is a local government
function, it would be inappropriate and fiscally impossible for cities and
states to fund such a facility. It is only logical that the Federal Government
assume such a responsibility and locate the facility within NIST.
Q7. Testimony submitted to the Science Committee by the Building Owners
and Managers Association (BOMA) calls for cost-benefit analyses to be developed
on the implementation of NIST’s recommendations. Do you believe this is a good
idea? Why or why not? If so, who should develop these analyses?
A7. The use of a cost-benefit analysis is not currently utilized
(to any great extent) when preparing the hundreds of codes and standards
developed by the NFPA, ICC, and other groups. While I agree that such a process
could be desirable for all codes and standards, I do not believe we
should start with the WTC investigation. The use of a cost-benefit analysis
must first be debated on a national level, ensuring that the public (typically
left out of the current code development process) has input into the decision
of what is ”too costly.”
Q8. Which recommendations do you think most require action by the
Federal Government, particularly with respect to research, and which agencies
should be responsible?
A8. I believe that my response to Question 4 above answers this
question. I would add, however, that the radio communications issue is one of
great importance to emergency responders and crosses over several lines of
jurisdiction within the Federal Government. An serious attempt must be made to
take control of this issue and move it forward to resolution.
Questions submitted by Democratic Members
Q1. What is your assessment of how well NIST has carried out its duties
under the National Construction Safety Team (NCST) Act? Do you feel that
NIST should invoke the ACT more often, for example should NIST have invokes the
Act to investigate Hurricane Katrina-related infrastructure failures? Does NIST
have clear criteria for when it should invoke the National Construction
Safety Team (NCST) Act? When reading the comments of the NCST Advisory
Committee I have the impression that they are frustrated that NIST is not doing
enough under the authorities provided by the Act.
A1. I feel that NIST has not made a substantial effort to implement
the NCST and have shown little interest in it. While NIST has worked to develop
response criteria to establish when teams will be organized, they have done
little else. For example, they have not established an NCST office within NIST
and have not developed a detailed investigation protocol manual for actual
investigations. To my knowledge, they have not published a list of actual
potential team members (including individuals from the private sector).
NIST should have responded to the Chicago E2 nightclub
disaster of 2003, the Florida hurricanes and California wildfires of 2004, and
most certainly hurricane Katrina in 2005. These were all substantial incidents
where the NCST should have been deployed. All of them fall within their own
”when to respond” criteria.
It is critical that NIST respond to such disasters, and
they use the NCST to do it. The NCST provides two critical elements not
contained under other NIST authorities: the ability to investigate without
having to have local officials ask NIST to do it and requires NIST to prepare
code recommendations.
Q2. Mr. Corbett, you feel that NIST took to long to complete its
investigation. What do you think would have been a more reasonable timeframe? Why
do you think it took so long to complete the investigation?
A2. NIST frequently moved their target completion dates further and
further back (the World Trade Center building 7 investigation is still not
complete). While this is somewhat understandable because of the complexity of
the investigation, a completion target of two and a half years would have been
more reasonable. From my perspective, it seems that it took too long to get out
of the starting gate, too long to get to the actual investigation initiated. It
also seems to be due to legal problems as well. For example, some of the delay
in the evacuation investigation was due to problems in obtaining Institutional
Review Board (IRB) approval for the oral interviews.
Q3. Mr. Corbett, you are critical of the NIST recommendations for being
too vague. Would you give us some examples of where you see problems? What
should have been done differently?
A3. NIST should have begun developing code recommendations months
ago. The fact that they are now only hiring the National Institute of Building
Sciences to prepare them is inexcusable. I consistently advocated for
development of recommendations in ”tight” code language well over a year ago.
For example, NIST should have easily been able to come up with specific
language for increasing minimum high-rise stairwell widths and providing
secondary water supplies for sprinkler/standpipe systems in acceptable code
text.
Q4. Mr. Corbett, you believe that NIST was not assertive enough in its
investigation and you lay the blame at NIST staff attorneys. How should have
NIST been more assertive? What leads you to believe it was bad counsel by staff
attorneys?
A4. NIST legal staff should have exhibited a more ”can-do”
attitude to the WTC and Station Nightclub investigations. Instead of spending
time identifying all the roadblocks to getting information, NIST legal staff
should have spent more time establishing ways of legally getting the
information NIST needed. In addition, NIST should have used its subpoena power,
especially in the case of the Station Nightclub. NIST relied almost exclusively
on newspaper accounts of club survivors for its ”investigation” rather than
actual interviews—totally unacceptable.
Q5. Mr. Corbett, the NIST recommendations are just the first step in
the process. They have to be implemented by building code organizations and
adopted by states and localities. How do you see the process moving forward? I
understand that New York City is currently revising its building codes, are
they using the NIST report and recommendations in this process?
A5. The process will move forward ever so slowly. The model code
groups and local jurisdictions (like NYC) need tight code language for
consideration, not material that they have to further refine. The model code
development process itself takes a long time as does the adoption process by
local governments. The fact NIST took so long to complete the investigation
(and continues to in the case of WTC 7) only extends this timeline. The
National Air Disaster Alliance has said: ”safety delayed is safety denied.” I
think this statement is appropriate in the case of the NCST WTC investigation.
ANSWERS TO POST-HEARING QUESTIONS
Responses by Henry L. Green, President, International Code Council
Questions submitted by the Majority
Q1. When is your committee that is prioritizing the NIST
recommendations going to complete its work? Will that committee then be putting
any of the recommendations into play for the upcoming ICC review process? How
is it determining priorities?
A1. The ICC has two committees at work on NIST/WTC related issues,
the ad-hoc committee on Terror Resistant Buildings (TRB) and the permanent Code
Technology Committee (CTC). These committees met together in early December to
continue coordination of activities in advance of the March 24, 2006 deadline
for submission of code change proposals for the 2007 supplements to the 2006
editions of the I–Codes. Each of the two committees will continue the process
of preparing independent proposals based on each committee’s unique charter and
in review of the NIST/WTC recommendations. In early February the CTC will meet
to formally receive the recommendations of the TRB, and has scheduled to issue
a report on the consolidated work of the two committees in advance of the March
24 deadline. As is addressed more fully in responses to questions below, some
of the NIST/WTC recommendations require preparation of additional technological
and economic assessments. In immediate prioritization the committees are
focused on those measures for which documented supporting evidence is available
by the March 24, 2006 deadline for the next code cycle.
Q2. In her testimony, Ms. McNabb said that the recommendation related
to elevators may be one of the most important. Do you agree? How difficult
would that be to codify and implement? Can you give the Committee a sense of
what specific next steps you would take to evaluate that recommendation and
what additional information you would need and from whom?
A2. Full exploration of the technological feasibility and costs and
benefits of this recommendation are a priority. At this time, however, it
should be observed that it appears unlikely that cost/benefit findings based on
this recommendation will be available in advance of the deadline for the next
code development cycle. At present the CTC awaits reporting from the American
Society of Mechanical Engineers (ASME) regarding the technological and economic
issues associated with this recommendation. Upon availability of findings from
ASME, ICC’s CTC will be able to issue advice regarding the potential timing of
a code change proposal related to the use of elevators in occupant evacuation
and emergency response access.
Q3. In your testimony, you suggested that codes are not necessarily the
best way to promote changes in practice. What is the problem with using codes?
What are the alternatives? What NIST recommendations should be implemented
through means other than codes?
A3. My view in this respect is this, that the quality and value of
building codes is meaningless unless the enactment of these codes is followed
up by local and State code officials with the proper training, equipment and
action by these officials. Building codes, as uniformly enforced, both ensure
the public of an adequate minimum standard of safety in any building they or
their family may visit, and also provide a level economic playing field for the
construction and maintenance of our personal and public facilities.
As I closed my testimony before the Committee, I share
the emphasis of the NIST/WTC report on recommendations on building regulations:
Rigorous enforcement of building codes and standards by State and local
agencies, well trained and managed, is critical in order for standards and
codes to ensure the expected level of safety. Unless they are complied with,
the best codes and standards cannot protect occupants, emergency responders, or
buildings. NIST NCSTAR 1, Section 9.1, p. 202
Q4. How did the ICC determine that a three-hour fire rating was
appropriate in light of the NIST recommendations?
A4. The increase of the fire rating on structural systems for
buildings greater than 420 feet in height was adopted in final form by ICC’s
membership at its final code action hearings held in September 2003, and first
became a requirement in the 2004 Supplement to the 2003 International Building
Code. This action was taken in the early stages of the NIST/WTC review, well
before issuance of recommendations. This significant change in the fire rating
of structural systems of high-rise structures was made with the understanding
that it will impose considerable additional expenses to the construction of new
high-rise buildings. In my view this change is not a product of new scientific
understanding; it is a result of our society’s profound new realization of the
attractiveness of such structures to terrorist attack.
Q5. You say that recommendations related to specific products will have
trouble getting through. Have any been made?
A5. That
observation I shared from generalized experience with ICC’s code process, but I
am not aware of any WTC event inspired code change proposals related to
specific products. It should be noted that because the NIST/WTC final report
was issued well after the August 2004 deadline for code change proposals in the
cycle just completed, we have not yet received or acted upon code change
proposals based on the issuance of the final NIST/WTC report.
Q6. You testified that we need more data and research to implement some
of NIST’s recommendations. What are the top three priority areas where
additional research and data are needed? Which specific entities should be
doing this research? Which recommendations are most hampered by lack of data?
A6. In my view the top three areas of need for scientific research
relative to code regulations in conjunction with the recommendations of the
NIST report are:
1) A comprehensive scientific analysis of egress, fire ratings and fire
proofing for high-rise structures.
2) Specific technical and cost/benefit analysis, in conjunction with ASTM
International, of the serviceability of elevator systems for fire event
occupant egress and fire services access for high-rise buildings.
3) Specific scientific investigation, in conjunction with the American
Society of Civil Engineers, of the cost and benefit of enhanced structural
provisions necessary to address structural stability and progressive collapse.
Those
questions most hampered by lack of data relate to fire event egress; especially
the technological potential and the cost/benefit calculations of developing
elevator systems designed to operate during fire evacuation and fire
suppression events.
Q7. Building trade associations have raised concerns that the
implementation of some of the recommendations will be expensive. Which of the
recommendations do you believe will be most costly? Would these costs be
justified in terms of their expected outcomes?
A7. It is clear that implementation of many of the recommendations
would significantly increase the cost of construction and operation of new
buildings, as well as reduce the percentage of leasable space in new
construction. It seems that the most expensive of the recommendations relate to
enhanced egress measures, especially provisions for refuge floors and the
construction and operation of elevator systems that could be relied upon for
occupant egress and fire services access during fire events. Considerable
additional construction costs would also come with providing secondary water
systems for fire suppression and the additional complexity of constructing
enhanced structural systems to mitigate potential for progressive collapse.
Without new data presenting technical feasibility and cost/benefit analysis, it
is not possible to suggest the likely outcome of a code change recommendation
based on any of these measures.
Q8. In written testimony submitted to the Committee, the American
Institute of Architects points to the lack of a fire test facility in the
United States—a facility large enough to test components of a tall building—as
a major shortcoming in the Nation’s ability to improve skyscraper safety. Is
the maintenance and operation of large-scale fire testing capability a NIST
responsibility, or does it lie elsewhere in the Federal Government or the
private sector? How do you respond to the AIA’s comments?
A8. It is important to observe, in context of this question, that
the NIST report conveys a clear understanding that the structural failures of
Tower 1 and Tower 2 were a result of the profoundly unique and unprecedented
conditions associated with terrorist attacks of September 11, 2001. In this
respect the NIST report (page xli) summarizes:
The tragic consequences of the September 11, 2001 attacks were directly
attributable to the fact that terrorists flew large jet-fuel laden commercial
airliners into the WTC towers. Buildings for use by the general population are
not designed to withstand attacks of such severity; building regulations do not
require building designs to consider aircraft impact. In our cities, there has
been no experience with a disaster of such magnitude, nor has there been any in
which the total collapse of a high-rise building occurred so rapidly and with
little warning.
The AIA states in its testimony that:
The NIST report and recommendations raise powerful issues about how best to
achieve building safety and security. The AIA encourages NIST to further
investigate areas such as actual building occupant loads and develop data on
actual building performance through additional testing of full-sized
components. NIST provides an ideal platform to investigate and report fairly
these issues. However, it will be necessary to gather much more data to verify
any change in the direction of model building codes. The AIA continues to
believe that the best way to ensure that building codes protect the public is
to ensure that model codes are developed through an open consensus based
process. (AIA testimony, page 7)
The ICC concurs with the AIA that any NIST
recommendation that leads to a code change proposal should be considered
through a voluntary consensus based code and standards process and be
accompanied with data from a thorough scientific evaluation of the change in
materials, technology, building design or fire-resistance testing and rating
processes that are proposed. In assessing questions regarding the
responsibility for and the value of increased scaling of fire-testing, as well
as the capacity of present public and private sector testing facilities to do
such, it is imperative to frame the NIST recommendations as specific proposals
for change to present codes and standards. At this writing the ICC is in
receipt of a concept, or ”Strawman” proposal prepared by NIST which suggests
additional consideration of scaling on fire resistance standards when test
specimens are less than b actual scale. In conducting real fire testing for the
WTC examination NIST found that the largest facility in North America provided
testing up to 30 feet; one-half of the size that would have been necessary for
full-scale testing. NIST has observed that, worldwide, there may be only one or
two facilities with furnaces capable of testing connected structural elements,
at designed load, with up to 60 foot spans. Given our present understanding of
the unique character of the conditions under which such full-scale testing
would enhance the safety of high-rise buildings it may, as the AIA suggests, be
incumbent on the Federal Government to undertake to construct and operate such
a unique facility.
Q9. Testimony submitted to the Science Committee by the Building Owners
and Managers Association (BOMA) calls for cost-benefit analyses to be developed
on the implementation of NIST’s recommendations. Do you believe this is a good
idea? Why or why not? If so, who should develop these analyses?
A9. As a first measure the public safety benefit of any
recommendation must be clearly evidenced and supported, and the ICC welcomes
the results of the NIST/WTC report as significant science in the consideration
of improving the defensibility of our public structures. At the same time it is
necessary, in putting forward building code changes based on those
recommendations, to clearly understand the economic consequences of each
specific proposal. It is ICC’s view that NIST, along with all federal agencies
with responsibilities impacting the built environment, should be active
participants in offering building code amendment proposals, whether based on
the NIST/WTC report, or through the general course of involvement in operating
in or regulating the built environment. As with any code change participant or
advocate, this includes participation in the development of both the scientific
evidence supporting a change, and analyses of the economic cost and public
policy justification for the change.
Q10. Which recommendations do you think most require action by the
Federal Government, particularly with respect to research, and which agencies
should be responsible?
A10. As suggested in my testimony to the Committee, and my
observations regarding other follow-up questions, the ICC believes that federal
agency involvement in ICC’s Governmental Consensus process is critical in
providing a full range of interests in the proposal of code change
recommendations, and in providing scientific and economic evidence that allows
for a fully considered debate on those recommendations. In this manner the
federal agency representatives participate, consistent with federal policy
guidance in OMB A–119 and the NTTAA, as colleagues in the voluntary sector
model code development and amendment process. This participation should reach
as well to all standards developing organizations (SDOs) that maintain standards
which have been identified by NIST as addressed by the NIST/WTC report. These
developers include the American Concrete Institute, the American Institute of
Architects, the American Institute of Steel Construction, the American Society
of Civil Engineers, the American Society of Mechanical Engineers, The
Association of the Wall and Ceiling Industry, ASTM International, the
International Organization for Standardization, the National Fire Protection
Association, and Underwriters Laboratories. The work of each of these SDOs is,
as well, referenced in the International Codes. This being said,
recommendations 22, 23 and 24 of group 6 ”Improved Emergency Response” have
direct and unique impact on the regulatory responsibilities of the Department
of Homeland Security and the Federal Communications Commission, and would
require consideration in federal rule-making processes.
Questions submitted by Democratic Members
Q1. Mr. Green, the ICC recommends closer collaboration between Federal,
State and local governments on building code issues. What needs to be improved?
A1. Consistent with the spirit and purpose of OMB Circular A–119
and the National Technology and Transfer Act of 1995, U.S. federal
agencies need not only to look to the private sector for standards to utilize
in governmental application, but also to participate in these standards
development processes. Federal Government agencies do have a history of
participation in the Governmental Consensus Process utilized by ICC. That
participation should continue to grow along with the agencies’ growing reliance
on ICC’s model building codes both to guide federal agency construction, as
well as in facilitation of federal rule-makings. Together with expanded
participation in proposing and advocating independent amendments to the model
codes, the agencies should actively coordinate the federal perspective on code
changes that will be considered in ICC’s code development process, regardless of
the source of the proposal.
Q2. The ICC agrees with NIST’s recommendations for continuing education
for building industry professionals. Currently what professional development
activities does ICC sponsor? What new activities do you envision being developed
in cooperation with NIST and other federal agencies?
A2. Below is ICC’s published training schedule for the coming year.
These programs are routinely attended by local, State and federal officials
with responsibilities in facilities construction or in regulating the building
environment.
Beyond putting forward these professional training
programs conducted by ICC’s training professionals, and assistance to agencies
directly utilizing I–Codes in facilities construction, ICC’s on-going work with
NIST and other federal agencies includes policy development coordination with
ICC’s Federal Government relations staff.
A short list of ICC’s collaborative work includes
initiatives with the Departments of Justice and Housing and Urban Development
in addressing elimination of barriers to building access and egress, and
providing HUD’s Partnership for Advancing Technology in Housing (PATH) with
technical support on building regulations. ICC initiatives with the Department
of Commerce include work with the International Trade Administration in hosting
foreign delegations researching U.S. standards, and similarly with NIST’s
Office of Standards Services. ICC is working with the U.S. Chemical Safety
Board in dissemination of results from investigations of dust explosions, and
in presentation of CBC findings to codes and standards amendment processes.
Collaboration with the Department of Health and Human Services includes work
with the Centers for Disease Control on a program related to CDC’s objective of
elimination of residential fire deaths by 2020.
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Q3. Mr. Green, I understand that your organization just included a
general meeting. What were the general reactions to the NIST report by your
membership?
A3. It should be noted that the main focus of ICC’s meeting in
Detroit in September, 2005 was the final action hearings on code change
proposals that were submitted in August 2004—well before the release of either
the draft or final NIST reports. As such no review of the report was undertaken
by the body at-large. I would observe, however, that the membership welcomes
the NIST/WTC report and recognizes that some of its most significant
recommendations, such as those addressed in my responses to the other questions
from the committee, will require additional review, evaluation and findings
from standards developers in order to have complete information on
technological feasibility and in order to fully evaluate the cost/benefit
balance of specific proposals. As I discussed in my testimony, affirmative
action was taken by the Board of Directors in directing the ICC Code Technology
Committee to work with NIST and parties in order to prioritize the
recommendations and prepare specific code change proposals in advance of the
March 24, 2006 deadline for submission to our next 18 month code change cycle.
Q4. Mr. Green, why do you feel that without NIST involvement and
leadership that either nothing will be done to implement their recommendations
or that they may be misinterpreted?
A4. It is my view that NIST has and continues to carry forward its
responsibilities effectively. NIST will have a critical role in elaborating the
intent and substantiation of its WTC recommendations during discussion of code
change proposals stimulated by the WTC report. NIST’s role will be crucial in
ensuring that ICC’s technical committees and the membership at-large receive a
full and accurate interpretation and basis for the NIST recommendations. With
the public circulation of the NIST/WTC report, we do expect that a number of
additional interested and affected parties will use the report as the
foundation for specific code changes proposals. To further stimulate this
process NIST has already demonstrated leadership through the issuance, in late
November, of a set of ”Strawman” model building code change proposals which
present the NIST/WTC recommendations in a manner consistent with submissions
for actual code change proposals. The Strawman document is already being
evaluated by ICC’s TRB and CTC committees in preparation of their report on the
development of code change proposals based on the NIST/WTC report.
Appendix 2:
Additional Material for the Record
STATEMENT OF THE AMERICAN INSTITUTE OF ARCHITECTS
The American Institute of Architects is pleased to
provide written testimony for the House Science Committee’s hearing on ”NIST’s
Investigation of the World Trade Center Collapse.”
The AIA
represents more than 76,000 licensed architects, emerging professionals, and
allied partners who are fully committed to the highest professional standards
in the design of the Nation’s built environment. As the AIA’s public policies
state, ”Architecture profoundly affects people. The work of architects is
essential to human well being, and architects must embrace their ethical
obligation to uphold this public trust.”
This testimony is based on the AIA’s public comments on
NIST’s Final Report of the National Construction Safety Team on the
Collapses of the World Trade Center Towers. When NIST released its report
last June, the AIA invited its members to provide input to the Institute about
the draft report and recommendations. These comments reflect the views
expressed by the AIA’s members.
The AIA cannot overstate the accomplishments of the
NIST investigating team and the substantial body of information they gathered
and organized in response to one of the worst catastrophes in American history.
The results are a definitive historical record of the largest and most
devastating building disaster ever. The AIA was honored to participate in this
process by having one of its members serve on the National Construction Safety
Team Advisory Committee.
Recognizing the superior design and performance of the
twin towers during an unprecedented terrorist attack, the data that the
investigating team compiled should not only help identify deficiencies but also
serve as a testament to the buildings’ ability to stand long enough after the
attack to allow thousands of occupants to evacuate.
We owe it to the victims of the September 11 attacks,
and to the millions of Americans who use buildings every day, to ensure that
our built environment is safe, and that any changes to how we design and
construct buildings come about as the result of an open, deliberative and
rational building code and regulation development process.
The Investigation: Demonstrating the Robustness of the Towers
On September 11, 2001, the World Trade Center towers
were subjected to an almost unimaginable attack from hijacked, fuel-laden 767s
flying at such high speeds that one of the jets nearly broke apart in mid-air.
Following its Congressional authorization to investigate the circumstances that
contributed to the towers’ collapse, NIST lauds the success of the design,
construction and materials for their exceptional performance. The report finds
that the buildings would have survived the catastrophic event were it not for
the fact that the aircraft caused extensive damage to the buildings and their
fire protective systems (both passive and active), and ignited extensive fires
that were limited only by the amount of combustible material they could reach.
The report presents, in its Executive Summary, the
following findings regarding the design, construction and materials of the
towers:
1. . . .the towers withstood the impacts and would have
remained standing were it not for the dislodged insulation (fireproofing) and
the subsequent multi-floor fires. The robustness of the perimeter frame-tube
system and the large size of the buildings helped the towers withstand the
impact. The structural system redistributed loads without collapsing in places
of aircraft impact, avoiding larger scale damage upon impact.
2. The WTC towers likely would not have collapsed under the
combined effects of aircraft impact damage and the extensive, multi-floor fires
if the thermal insulation had not been widely dislodged or had been only
minimally dislodged by aircraft impact.
3. Since the flow of people from the building had slowed
considerably 20 min. [sic] before the tower [WTC 1] collapsed,
the stairwell capacity was adequate to evacuate the occupants on that morning.
4. As in WTC 1, shortly before collapse, the flow of people from
the building [WTC 2] had slowed considerably, indicating that the
stairwell capacity was adequate that morning.
5. The fire safety systems (sprinklers, smoke purge, and fire
alarms,) were designed to meet or exceed current practice.
6. For the approximately 1,000 emergency responders on the scene,
this was the largest disaster they had even seen. Despite attempts by the
responding agencies to work together and perform their own tasks, the extent of
the incident was well beyond their capabilities.
7. . . .the actual design and approval process produced
two buildings that generally were consistent with nearly all of the provisions
of the New York City Building Code and other building codes of the time. The
loads for which the buildings were designed exceeded the code requirements. The
quality of the structural steels was consistent with the building
specifications. The departures from the building codes and standards did not
have a significant effect on the outcome of September 11.
8. On September 11, 2001, the minimum specified thickness of the
insulation was adequate to delay heating of the trusses; the amount of
insulation dislodged by the aircraft impact, however, was sufficient to cause
the structural steel to be heated to critical levels.
9. . . .in all cases [during NIST’s testing of fire
rated assemblies], the floors continued to support the full design load
without collapse for over two hours.
10. The wind loads used for the WTC towers, which governed the
structural design of the external columns and provided the baseline capacity of
the structures to withstand abnormal events such as major fires or impact
damage, significantly exceeded the requirements of the New York City Building
Code and selected other building codes of the day.
The North Tower. The first account of the performance of World Trade
Center 1 (the north tower) is found in Chapter 2 of NIST’s final report.
Following a detailed description of the extent of damage, the report states,
”Even with all this damage, the building still stood.” Ignition of the
building contents by the explosion of 10,000 gallons of jet fuel is addressed
in the account of WTC 1, which finds that the ignition of the contents of the
building and airplane caused a fuel-controlled fire, creating an exposure that
is not typical of any condition that is considered when designing buildings.
The report finds that the aircraft impact virtually
destroyed the fire protection systems. The report states that the system was
designed to supply water to about eight sprinkler heads at one time, enough to
control the flames from as much as 1,500 square feet of burning material. The
water supply was likely sufficient to control fires up to triple that size.
However, the fires caused by the aircraft impact were far larger than those
envisioned by any imaginable fire protection system.
The South Tower. World
Trade Center 2 (the south tower) was subjected to a similar event, but faced a
number of factors that were distinct from WTC 1. Those factors resulted in a
larger overall fraction of the occupants surviving, despite the fact that WTC 2
collapsed in a shorter period of time. According to the report, within five
minutes of the impact on WTC 1, half of the occupants of WTC 2 had left their
floors, and the number of evacuees subsequently increased rapidly. Based on
their perception of events occurring in WTC 1, approximately 3,000 people in
WTC 2 escaped in the 16 minutes between the aircraft impact on WTC 1 and the
impact on WTC 2.
The report goes on to state that WTC 2 ”swayed more
than one foot back and forth in each direction on the impact floors, about
one-third the sway under the high winds for which the building was designed.”
Nonetheless, just like WTC 1, WTC 2 absorbed the aircraft strike and remained
standing for nearly an hour. Similar to the circumstances of WTC 1, jet fuel
played a critical role in providing an extraordinary ignition source to the
fuel load in WTC 2, contributing to the ultimate failure of the structural
system.
The World Trade Center collapse provided the design and
construction industry with an opportunity to evaluate and reexamine its
processes and practices. Based upon the outstanding success of these buildings
under extraordinary circumstances, it is clear that the design community can be
trusted to create redundancies for typical building emergency situations, that
codes are developed in a manner that provides sufficient input from all
quarters to ensure adequate life safety for typical emergency situations, and
that no upgrading of code requirements is warranted given the performance of
these buildings.
The Recommendations: Missed Opportunities
Although the
report provides significant information regarding the performance of the
buildings, their occupants and the extraordinary efforts of the responding
emergency personnel, the AIA believes that a number of the recommendations in
the report are not supported by the findings of the investigation. Other
recommendations suggest reforms that have already been addressed by the design
and construction industry or the model code organizations. The Appendix to this
testimony provides a detailed analysis of NIST’s recommendations and the AIA’s
responses.
At the same time, the AIA believes that the report
misses opportunities to make recommendations that would improve the
understanding of how buildings perform in extreme events. Developing that
understanding in order to protect building occupants must be a fundamental
mission of all organizations that work to create a better built environment.
One such area is fire testing. NIST developed advanced
fire modeling techniques to evaluate the complex circumstances at the World
Trade Center, examining the spread of fire and its impact on structural
members. This may become an important tool for designing safer buildings,
although their ability to integrate known conditions into the modeling
currently used in the marketplace was a major problem even for NIST when it
evaluated the 2003 fire at the Station nightclub in Rhode Island.
The AIA believes that improved fire testing is a vital
need, and opportunity, that must not be ignored. The Institute is therefore
troubled by the fact that there are no test facilities in the United States
that can accommodate the larger lengths or sizes of elements such as those
found in the twin towers. If the Federal Government is truly committed to
understanding the effects of such fire hazards on the built environment, it is
critical that it provide for adequate testing facilities at home.
The AIA strongly encourages this committee to
consider authorizing funding to construct new testing facilities or retrofit
existing facilities that can address the full range of building conditions
present in the United States.
In addition, NIST should be encouraged to take
advantage of its position as the preeminent research facility in the United
States to examine innovative materials and processes and assure that they meet
the most rigorous of standards appropriate for their use. Performance codes,
which the AIA believes are the future direction for building codes and
regulations, are sorely in need of supporting information on the actual
performance of buildings and building systems. Without this data, designers are
left to make assumptions based on limited resources.
Furthermore, the AIA believes that NIST should
facilitate opportunities to develop ”smart” building systems that would
better advise first responders of actual building conditions and situations.
The current efforts to improve the use of elevators in an emergency are an
example of the dramatic changes that will take place to the guidance provided
to building occupants.
Building Codes: An Accountable and Comprehensive System
The major finding of the NIST report is that the design
and construction materials of the World Trade Center did not contribute to the
disaster; they performed exceptionally well. Despite this fact, the report
offers several recommendations that are not supported by the investigation, nor
are they backed by substantive research. In fact, the premises of some of the
statements appear to be in error.
For example, in section 9.1 (”Building Standards and
Codes: Who is in Charge?”), the report states, ”Very few members of the
general public and building occupants participate in [the code development]
process.” Although this is true of most standards development groups,
including NFPA and IAPMO, it is not true for the International Code Council’s
family of codes. State and local code enforcement officials (building, fire,
plumbing, electrical, etc.) are a driving force behind code changes and have
the controlling votes on all changes to ICC’s codes. These officials are public
officials who represent their states, counties and cities, and do not fall
within any of the categories that NIST lists as ”influencing the practices
used in the design, construction, operation, and maintenance of buildings in the
United States.”
The code enforcement community has been extraordinarily
aggressive in pursuing education and certification for their members. Many
states and local jurisdictions have worked diligently to assure the credibility
of their enforcement programs by requiring certification of training obtained
by their code enforcement officials.
The question of ”who is in charge” regarding the
development and application of codes and standards is well established and
recognized by 45 states as the code official using the International
Building Code, and in 36 states as the code official using the International
Fire Code.
The AIA believes that State and local governments
must retain the authority to determine appropriate building regulations. The
AIA does not agree that the Federal Government is in a position to supplant the
voice or the rights of local and state jurisdictions by presuming to speak for
the public that is given the constitutional authority through police powers to
determine what is appropriate for building regulation in their communities.
The fundamental challenge regarding codes and life
safety today is the lack of an understanding or an appreciation by users of the
safety features designed and built into modern buildings. This includes
building owners, managers, tenants and service providers who often
unintentionally subvert life safety features out of ignorance about how they
work. This was most evident in the Rhode Island nightclub tragedy, where
modifications that were made to the interior of the building and the use of
pyrophoric materials in the facility were both major violations of the
applicable codes. Had the owner or the user of the space been more knowledgeable
about the potential hazards associated with such actions, that disaster would
likely have been averted.
Conclusion
NIST has undertaken an extraordinary effort to
investigate and understand the consequences of the most devastating terrorist
attack in our nation’s history. It should be reassuring to the public that the
report concludes that the World Trade Center towers were well within the
contemporary norms of design and construction, and that the buildings were able
to stand long enough to allow thousands of people to escape.
But the terrible loss of life that day demands that we
study the results of this investigation closely to learn what the design and
construction professions have done right, and where improvements can be made to
better protect people in buildings.
The recommendations in the NIST report are useful
guidelines towards that end. However, the AIA believes that at times the
recommendations overlook measures and technologies that are already in
practice, or go in directions that are not supported by either the
investigation or scientific research.
The need to protect the health, safety and welfare of
people who use buildings is not a subject of debate. This is why the AIA
requires its members to adhere to the highest professional standards and take
at least eight hours of health, safety and welfare continuing education classes
each and every year throughout their careers in order to remain members in good
standing.
The NIST report and recommendations raise powerful
issues about how best to achieve building safety and security. The AIA
encourages NIST to further investigate areas such as actual building occupant
loads and develop data on actual building performance through additional
testing of full-sized components. NIST provides an ideal platform to
investigate and report fairly these issues. However, it will be necessary to
gather much more data to verify any change in the direction of model building
codes. The AIA continues to believe that the best way to ensure that
building codes protect the public is to ensure that model codes are developed
through an open, consensus based process.
The AIA commends NIST for making education a focus of
its efforts. The AIA encourages the design and construction industry, and
everyone who uses buildings, to take advantage of opportunities to gain a
greater understanding of how buildings affect our lives and our communities.
Appendix: Recommendations and Responses
The report states that NIST’s recommendations (Section
9.2) are based on:
1. Findings related to building performance, evacuation
and emergency response, and to procedures and practices used in the design,
construction, operation, and maintenance of the buildings;
2. Whether these findings relate to the unique circumstances surrounding
the terrorist attacks of September 11, 2001, or to normal building and fire
safety considerations (including evacuation and emergency response);
3. Technical solutions that are needed to address potential risks to
buildings, occupants, and emergency responders, considering both identifiable
hazards and the consequences of those hazards; and
4. Whether the risks apply to all buildings or are limited to certain
building types (e.g., buildings that exceed a certain height and floor area or
that employ a specific type of structural system), buildings that contain
specific design features, iconic/signature buildings, or buildings that house
critical functions.
NIST’s recommendations are broken down into eight
groups. The AIA’s comments follow each recommendation.
Group 1: Increased Structural Integrity
Group 1 (Increased Structural Integrity) calls for
improved standards to enhance structural integrity for estimating load effects
of progressive collapse and wind.
Recommendation 1. NIST recommends that: (1) progressive collapse should be
prevented in buildings through the development and nationwide adoption of
consensus standards and code provisions, along with the tools and guidelines
needed for their use in practice; and (2) a standard methodology should be
developed—supported by analytical design tools and practical design guidance—to
reliably predict the potential for complex failures in structural systems
subjected to multiple hazards.
Recommendation 2. NIST recommends that nationally accepted
performance standards be developed for: (1) conducting wind tunnel testing of
prototype structures based on sound technical methods that result in repeatable
and reproducible results among testing laboratories; and (2) estimating wind
loads and their effects on tall buildings for use in design, based on wind
tunnel testing data and directional wind speed data.
Recommendation 3. NIST recommends that an appropriate criterion
should be developed and implemented to enhance the performance of tall
buildings by limiting how much they sway under lateral load design conditions
(e.g., winds and earthquakes).
AIA Response
It should be noted that nothing in the NIST report
criticizes nor questions the structural integrity of the World Trade Center
towers and their design. In fact, the report finds that the buildings were more
robust than would have been required by any code in force at the time they were
designed and constructed. NIST’s report focuses on the varying results they
received when different consultants examined the buildings’ wind design. It is
the lack of a consensus method for evaluating buildings that NIST’s
recommendations address, not providing additional requirements for the design
of structures.
A recent article by Jesse Beitel and Nestor Iwankiw,
Ph.D., P.E., from Hughes Associates, Inc., in SFPE’s Fire Protection
Engineering (Summer 2005) documents a ”Historical Survey of Multistory
Building Collapses Due to Fire.” The data in the article was taken from a NIST
survey performed in 2002 that focused on buildings four or more stories tall.
The survey covered the time period between 1970 and 2002 and discovered a total
of 22 buildings that had either full or partial collapse. The article states,
”While the number of fire events may appear low (average of one per year),
these fire events are high-consequence occurrences with respect to loss of
life, injuries, and economic costs.” When examining those statistics, five of
the fire events were the result of the September 11 attacks, and 13 of the
buildings were four to eight stories tall. There were only three ”high-rise”
buildings that involved any collapse scenario.
The Beitel/Iwankiw article states:
Almost 60 percent (13/22) of the cases are in the 4–8 stories range, with the
remainder affecting much taller buildings. Six collapses occurred in buildings
over 20 stories, and three of these were the WTC steel-framed buildings (1, 2,
and 7). At least four of these fire collapses had occurred during construction
or renovations of some kind, when the usual expected architectural, structural
and fire protection functions were still incomplete or temporarily disrupted.
It is common knowledge that a construction site is an
unsafe and dangerous environment. Additionally, the research for this study
does not include any information determining whether the buildings conformed to
any code or standard. Based on NIST’s own study, it appears that the
recommendation to increase structural integrity is due to fire events in a
total of four collapsed structures four stories or taller over a 32-year
period. Assuming that one of the collapses is the Murrah Federal Building in
Oklahoma City, Oklahoma, in which the collapse was the result of a
vehicle-borne explosive, this leaves a total of three such fire events
worldwide that resulted in collapse or partial collapse of a high-rise
building.
Group 2: Enhanced Fire Resistance of Structures
Group 2 (Enhanced Fire Resistance of Structures)
recommends that the procedures and practices used to ensure that the basis for
classification of fire resistance in buildings should be enhanced.
Recommendation 4. NIST recommends evaluating, and where needed
improving, the technical basis for determining appropriate construction
classification and fire rating requirements (especially for tall buildings
greater than 20 stories in height)—and making related code changes now as much
as possible—by explicitly considering factors including:
timely access by emergency responders and full evacuation of
occupants, or the time required for burnout without local collapse;
the extent to which redundancy in active fire protection (sprinkler
and standpipe, fire alarm, and smoke management) systems should be credited for
occupant life safety;
the need for redundancy in fire protection systems that are critical
to structural integrity;
the ability of the structure and local floor systems to withstand a
maximum credible fire scenario without collapse, recognizing that sprinklers
could be compromised, not operational, or non-existent;
compartmentation
requirements (e.g., 12,000 ft2) to protect the structure, including fire rated
doors and automatic enclosures, and limiting air supply (e.g., thermally
resistant window assemblies) to retard fire spread in buildings with large,
open floor plans;
the impact of spaces containing unusually large fuel concentrations
for the expected occupancy of the building; and
the extent to which fire control systems, including suppression by
automatic or manual means, should be credited as part of the prevention of fire
spread.
Recommendation 5. NIST recommends that the technical basis for the
century-old standard for fire resistance testing of components, assemblies, and
systems should be improved through a national effort. Necessary guidance also
should be developed for extrapolating the results of tested assemblies to
prototypical building systems.
Recommendation 6. NIST recommends the development of criteria, test
methods, and standards: (1) for the in-service performance of spray-applied
fire resistive materials (SFRM, also commonly referred to as fireproofing or
insulation) used to protect structural components; and (2) to ensure that these
materials, as-installed, conform to conditions in tests used to establish the
fire resistance rating of components, assemblies, and systems.
Recommendation 7. NIST recommends the nationwide adoption and use of
the ”structural frame” approach to fire resistance ratings.
AIA Response
Enhanced fire resistance was not an issue in the World
Trade Center collapse, as the buildings would have survived even the massive
fires caused by the aircraft had the planes not dislodged fire proofing
materials.
Recommendation 4 implies that structures should be
designed for an aircraft impact, which does not comport with NIST’s findings.
In fact, the lead investigator for NIST has stated that it is far easier to
ensure that airplanes are not used as weapons against buildings than to design
for such an event. As noted earlier, the instances of structural failure due to
fire are extremely rare and, in a fully sprinklered building, even rarer. These
facts do not indicate a need for enhanced levels of fire resistance in building
design.
One of the concerns expressed with regard to
construction methods involves the application of spray-on fireproofing. This
debate is not new and has been well documented. It is of concern that, with
such a large focus in the report on the fire resistance of materials used in
the buildings, there is no mention of the appropriateness of test standards such
as ASTM E605–00 (Test Method for Thickness and Density of Sprayed
Fire-resistive Material (SFRM) Applied to Structural Members) and ASTM
E736 (Cohesion/Adhesion of Sprayed Fire-Resistive Materials Applied to
Structural Members), both of which are referenced in the International
Building Code, and thus presumably ”required by code” and enforced.
Similarly lacking is reference to, or a measure of the
appropriateness of, ASTM E759 (Effect of Deflection on Sprayed
Fire-Resistive Materials Applied to Structural Members), ASTM E760 (Effect
of Impact on Bonding of Sprayed Fire-Resistive Materials Applied to Structural
Members), ASTM E761 (Compressive Strength of Sprayed
Fire-Resistive Materials Applied to Structural Members), ASTM E859 (Air
Erosion of Sprayed Fire-Resistive Materials Applied to Structural Members), or
ASTM E937 (Corrosion of Steel by Sprayed Fire-Resistive Materials
Applied to Structural Members).
In recommendation 5, NIST suggests reevaluation of the
ASTM E119 procedure. The AIA believes that a better approach would be to take
the research performed by NIST using recognized testing procedures to explore
how the large-scale testing compares with results obtained using small-scale
tests. The fact that the unrestrained assembly outperformed the restrained
assembly is still unexplained. It appears that design is still taking place
under the assumption that a restrained assembly will outperform an unrestrained
assembly.
NIST specifically refers to the AIA in recommendation
6, suggesting that it is important ”to develop criteria, test methods and
standards for the ‘in-service’ performance of spray-applied fire resistive
materials.” NIST suggests that MasterSpec is the appropriate forum for such
activity. Architects in general, and MasterSpec in particular, do not have that
sole responsibility establishing such standards. Other agencies or
organizations develop standards, which are then included in MasterSpec where
appropriate as requirements for the construction of buildings. Architects and
specifiers often participate in the development of standards, which is
appropriate to assure the applicability of the resulting standards. But it is
the collaborative development of standards that should be encouraged.
With the lack of specific direction on the use of the standards that even now
are found in building codes, it is unclear what NIST is recommending be done.
Lastly, recommendation 6 suggests adoption of a
structural frame approach to design throughout the United States. However, the
requirement for design of a structural frame has already been accomplished by
the adoption of the International Building Code in 45 states.
Group 3: New Methods for Fire
Resistance Design of Structures
Group 3 (New Methods for Fire Resistance Design of
Structures) recommends that procedures used to design the fire resistance
should be enhanced by considering uncontrolled fires to burnout. This
recommendation suggests that new coatings and technology for evaluating them be
developed to enhance conventional and high-performance structural materials.
Recommendation 8. NIST recommends that the fire resistance of
structures should be enhanced by requiring a performance objective that
uncontrolled building fires result in burnout without local or global collapse.
Recommendation 9. NIST recommends the development of: (1)
performance-based standards and code provisions, as an alternative to current
prescriptive design methods, to enable the design and retrofit of structures to
resist real building fire conditions, including their ability to achieve the
performance objective of burnout without structural or local floor collapse:
and (2) the tools, guidelines, and test methods necessary to evaluate the fire
performance of the structure as a whole system.
Recommendation 10. NIST recommends the development and evaluation of
new fire resistive coating materials, systems, and technologies with
significantly enhanced performance and durability to provide protection
following major events.
Recommendation 11. NIST recommends that the performance and
suitability of advanced structural steel, reinforced and pre-stressed concrete,
and other high-performance material systems should be evaluated for use under
conditions expected in building fires.
AIA Response
Recommendation 8 suggests consideration of designing to
allow ”uncontrolled fires to burnout.” Such circumstances may be a
consideration, but are not appropriate in most circumstances. Even where there
have been uncontrolled fires that caused a ”burnout,” there is no evidence
that current procedures are inadequate. In the article by Beitel and Iwankiw,
which uses NIST data, the rationale is not present to warrant such a major
change in building code requirements.
Recommendation 9 reflects actions taken by both the ICC
and the NFPA in the development of performance code criteria. What is currently
lacking are the tools and background information on responses of buildings and
the performance of the elements within them for any given event. The AIA
believes that NIST could provide a significant resource to the industry by
examining actual fire scenarios more closely and developing guidelines for
understanding such events. With that kind of data available, designers would be
able to utilize a performance approach to building safety that is informed by
real world evidence.
The AIA questions the logic behind recommendations 10
and 11. The report frequently expresses doubt about ”innovative” design
materials and methods in its evaluation of the floor truss systems in the World
Trade Center. Yet those innovative floor framing systems performed as
anticipated and were proven to be adequate based on the tests that NIST
performed. Industry will continuously develop innovative materials and systems,
and the AIA believes that NIST can and should play a vital role in encouraging
them by facilitating more realistic testing that would replicate actual
construction.
Group 4: Improved Active Fire Protection
Group 4 (Improved Active Fire Protection) calls for
enhancements to sprinklers, standpipes, hoses, fire alarms and smoke management
systems, including redundancy.
Recommendation 12. NIST recommends that the performance and
redundancy of active fire protection systems (sprinklers, standpipes/hoses,
fire alarms, and smoke management systems) in buildings should be enhanced to
accommodate the greater risks associated with increasing building height and
population, increased use of open spaces, available compartmentation, high-risk
building activities, fire department response limits, transient fuel loads, and
higher threat profile.
Recommendation 13. NIST recommends that fire alarm and communications
systems in buildings should be developed to provide continuous, reliable, and
accurate information on the status of life safety conditions at a level of
detail sufficient to manage the evacuation process in building fire
emergencies, and that standards for their performance be developed.
Recommendation 14. NIST recommends that control panels at
fire/emergency command stations in buildings should be adapted to accept and
interpret a larger quantity of more reliable information from the active fire
protection systems that provide tactical decision aids to fireground
commanders, including water flow rates from pressure and flow measurement
devices, and that standards for their performance be developed.
Recommendation 15. NIST recommends that systems should be developed
and implemented for: (1) real-time off-site secure transmission of valuable
information from fire alarm and other monitored building systems for use by
emergency responders, at any location, to enhance situational awareness and
response decisions and maintain safe and efficient operations; and (2)
preservation of that information either off-site or in a black box that will
survive a fire or other building failure for purposes of subsequent
investigations and analysis. Standards for the performance of such systems
should be developed, and their use should be required.
AIA Response
NIST’s concerns about the redundancy of active and
passive fire protective systems are valid in circumstances where all such
systems may be rendered ineffective or inoperative. However, such circumstances
are extremely rare, as was the case in the unprecedented aircraft attack on the
World Trade Center. The ICC Performance Code for Buildings and Facilities, NFPA’s
101 Life Safety Code and 5000 Building Code already include this
approach to fire protection design in their performance guidelines. Although
the World Trade Center was not designed for such complex circumstances, it
nevertheless performed remarkably well.
Recommendations 13, 14, and 15 include opportunities
for significant improvement in the performance of fire protection systems by
installing smart building devices. Where there is a reasonable risk of natural
or manmade hazards to a particular structure, every effort should be taken to
ensure the security of the facilities and protection of the occupants.
Group 5: Improved Building Evacuation
Group 5 (Improved Building Evacuation) addresses
communications systems and the design of means of egress.
Recommendation 16. NIST recommends that public agencies, non-profit
organizations concerned with building and fire safety, and building owners and
managers should develop and carry out public education campaigns, jointly and
on a nationwide scale, to improve building occupants’ preparedness for
evacuation in case of building emergencies.
Recommendation 17. NIST recommends that tall buildings should be
designed to accommodate timely full building evacuation of occupants due to
building-specific or large-scale emergencies such as widespread power outages,
major earthquakes, tornadoes, hurricanes without sufficient advanced warning,
fires, accidental explosions, and terrorist attack. Building size, population,
function, and iconic status should be taken into account in designing the
egress system. Stairwell and exit capacity should be adequate to accommodate
counterflow due to emergency access by responders.
Recommendation 18. NIST recommends that egress systems should be designed:
(1) to maximize remoteness of egress components (i.e., stairs, elevators,
exits) without negatively impacting the average travel distance; (2) to
maintain their functional integrity and survivability under foreseeable
building-specific or large-scale emergencies; and (3) with consistent layouts,
standard signage, and guidance so that systems become intuitive and obvious to
building occupants during evacuations.
Recommendation 19. NIST recommends that building owners, managers,
and emergency responders develop a joint plan and take steps to ensure that
accurate emergency information is communicated in a timely manner to enhance
the situational awareness of building occupants and emergency responders
affected by an event. This should be accomplished through better coordination
of information among different emergency responder groups, efficient sharing of
that information among building occupants and emergency responders, more robust
design of emergency public address systems, improved emergency responder
communication systems, and use of the Emergency Broadcast System (now known as
the Integrated Public Alert and Warning System) and Community Emergency Alert
Networks.
Recommendation 20. NIST recommends that the full range of current and
next generation evacuation technologies should be evaluated for future use,
including protected/hardened elevators, exterior escape devices, and stairwell
navigation devices, which may allow all occupants an equal opportunity for
evacuation and facilitate emergency response access.
AIA Response
Recommendation 16, though well intentioned, misses a
key element of building safety. While ensuring proper egress during an
emergency is important, too many building owners, managers and occupiers fail
to prepare for emergencies before the fact. Examples of malfunctioning or
failed systems (such as burned out exit sign lights or fire doors that are
blocked by furniture or boxes) are routine, leaving occupants in jeopardy. It
is therefore just as important to educate users about maintaining the many life
safety elements in a building so that they are functioning as designed when an
emergency happens.
Recommendation 17 suggests wider stairwells and greater
exit capacity to accommodate regarding counter-flow from first responders. This
raises a concern about orderly and controlled egress. No research is cited
regarding the effect wider stairs may have, or the possibility that evacuating
occupants will simply fill the larger stairwell. Faster-moving individuals will
tend to pass slower people descending the stairs, potentially leading to
conflict and disruption of an orderly egress process.
Regarding the distribution of exits, the current model
codes address the minimum remoteness issue. Had the stairs been more remote
from each other at the World Trade Center there is no guarantee that even hardened
stair enclosures would not have been totally incapacitated had the aircraft
impacted the buildings at or near the more remote stair. Placing stairs further
outside the core of buildings reduces their level of hardening and leaves them
more vulnerable to abuse by the occupants of the building.
Recommendation 20 calls for hardening of elevators and
stairway enclosures as well as additional devices that aid egress.
Unfortunately, the hardening issue can be a catch-22. Although hardening may
help in maintaining an element’s viability in certain emergency situations, the
hardened features may be difficult for occupants to manage if they are damaged.
Reports have emerged about individuals caught inside elevators at the twin
towers who used various devices to escape by cutting their way through the
drywall shaft. Would that have been possible in a hardened shaft? Furthermore,
the occupants who discovered the single stair that remained partially open to
the upper floors in WTC 2 would not have been able to remove ”hardened”
debris and egress those stairs.
Technology for aids to egress are encouraged. However
the most promising development to assist egress in a tall building is a
functioning elevator system, as proven in WTC 2.
Group 6: Improved Emergency Response
Group 6 (Improved Emergency Response) recommends
technical and procedural changes to gain access to buildings and maintain
effective communications and command and control in large-scale emergencies
Recommendation 21. NIST recommends the installation of fire-protected
and structurally hardened elevators to improve emergency response activities in
tall buildings by providing timely emergency access to responders and allowing
evacuation of mobility-impaired building occupants. Such elevators should be
installed for exclusive use by emergency responders during emergencies. In tall
buildings, consideration also should be given to installing such elevators for
use by all occupants.
Recommendation 22. NIST recommends the installation, inspection, and
testing of emergency communications systems, radio communications, and
associated operating protocols to ensure that the systems and protocols: (1)
are effective for large-scale emergencies in buildings with challenging radio
frequency propagation environments; and (2) can be used to identify, locate,
and track emergency responders within indoor building environments and in the
field.
Recommendation 23. NIST recommends the establishment and
implementation of detailed procedures and methods for gathering, processing,
and delivering critical information through integration of relevant voice, video,
graphical, and written data to enhance the situational awareness of all
emergency responders. An information intelligence sector should be established
to coordinate the effort for each incident.
Recommendation 24. NIST recommends the establishment and implementation
of codes and protocols for ensuring effective and uninterrupted operation of
the command and control system for large-scale building emergencies.
AIA Response
Recommendation 21 largely duplicates recommendation 20.
Existing elevator technology recalls all elevators for emergency use. Whether
hardening is appropriate is a serious question; it has not been proven to be
appropriate or even desirable in those locations where it has been attempted.
Group 7: Improved Procedures and
Practices
Group 7 (Improved Procedures and Practices)
addresses code compliance by nongovernmental agencies, adoption of egress and
sprinkler requirements in codes for existing buildings and maintenance of
building documents over the life of the structure.
Recommendation 25. Non-governmental and quasi-governmental entities
that own or lease buildings and are not subject to building and fire safety
code requirements of any governmental jurisdiction are nevertheless concerned
about the safety of the building occupants and the responding emergency
personnel. NIST recommends that such entities should be encouraged to provide a
level of safety that equals or exceeds the level of safety that would be provided
by strict compliance with the code requirements of an appropriate governmental
jurisdiction. To gain broad public confidence in the safety of such buildings,
NIST further recommends that it is important that as-designed and as-built
safety be certified by a qualified third party, independent of the building
owner(s). The process should not use self-approval for code enforcement in
areas including interpretation of code provisions, design approval, product
acceptance, certification of the final construction, and post-occupancy
inspections over the life of the buildings.
Recommendation 26. NIST recommends that state and local jurisdictions
should adopt and aggressively enforce available provisions in building codes to
ensure that egress and sprinkler requirements are met by existing buildings.
Further, occupancy requirements should be modified where needed (such as when
there are assembly use spaces within an office building) to meet the
requirements in model building codes.
Recommendation 27. NIST recommends that building codes should
incorporate a provision that requires building owners to retain documents,
including supporting calculations and test data, related to building design,
construction, maintenance and modifications over the entire life of the building.
Means should be developed for offsite storage and maintenance of the documents.
In addition, NIST recommends that relevant building information should be made
available in suitably designed hard copy or electronic format for use by
emergency responders. Such information should be easily accessible by
responders during emergencies.
Recommendation 28. NIST recommend that the role of the ”Design
Professional in Responsible Charge” should be clarified to ensure that: (1)
all appropriate design professionals (including, e.g., the fire protection
engineer) are part of the design team providing the standard of care when
designing buildings employing innovative or unusual fire safety systems, and
(2) all appropriate design professionals (including, e.g., the structural
engineer and the fire protection engineer) are part of the design team
providing the standard of care when designing the structure to resist fires, in
buildings that employ innovative or unusual structural and fire safety systems.
AIA Response
Recommendations 25 and 26 call for the adoption and use
of codes. The AIA has long advocated that every jurisdiction in the Nation,
at all levels of government, to use a modern building code that is
comprehensive, coordinated and contemporary. The AIA believes that the ICC
family of codes, in conjunction with the NFPA electrical code, provide the
”bookshelf” of codes that should be endorsed by all legislative and
quasi-legislative agencies for application on all projects. Adoption of a
single ”bookshelf” of codes utilized by all designers, builders and operators
of buildings across the Nation has been a long sought goal of the AIA to avoid
confusion in the creation of the built environment.
Recommendation 28 calls for the ”design professional
in responsible charge” to assure that the appropriate professionals are
included on each design team. This is, and has been for a long time, standard
practice in this country and is demanded by the licensing criteria in all
states. There appears to be a presumption that fire protection engineers and
structural engineers are somehow excluded from ”innovative or unusual fire
safety systems.” It is most likely that these designers are the ones who are
proposing innovative solutions to innovative designs. It would be unethical and
unprofessional to fail to include a fire protection engineer or structural
engineer in such projects.
Group 8: Education and Training
Group 8 (Education and Training) calls for the skills
of building and fire professionals to be upgraded through education and
training of fire protection engineers, structural engineers, and architects.
Recommendation 29. NIST recommends that continuing education
curricula should be developed and programs should be implemented for training
fire protection engineers and architects in structural engineering principles
and design, and training structural engineers, architects, and fire protection
engineers in modern fire protection principles and technologies, including
fire-resistance design of structures.
Recommendation 30. NIST recommends that academic, professional
short-course, and web-based training materials in the use of computational fire
dynamics and thermostructural analysis tools should be developed and delivered
to strengthen the base of available technical capabilities and human resources.
AIA Response
Recommendations 29 and 30 call for education of members
of the design and construction industry. As the only professional organization
in the industry that holds its members to a standard of education (accredited
degrees) and continuing education (18 hours of continuing education per year,
of which at least eight must be related to health, safety and welfare), the AIA
applauds NIST’s call to others in the field to gain additional education.
However, education is only valuable if the information
is readily understood and can be incorporated into every-day practice. While
computational fire dynamics and thermostructural analysis tools may be helpful
in certain circumstances, they must be of use to those that will make the
decisions associated with fire resistance and fire protection and design.
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STATEMENT BY JAMES G. QUINTIERE
PROFESSOR, DEPARTMENT OF FIRE PROTECTION ENGINEERING
UNIVERSITY OF MARYLAND
In my opinion, the WTC investigation by NIST falls
short of expectations by not definitively finding cause, by not sufficiently
linking recommendations of specificity to cause, by not fully invoking all of
their authority to seek facts in the investigation, and by the guidance of
government lawyers to deter rather than develop fact finding.
I have over 35 years of fire research in my experience.
I worked in the fire program at NIST for 19 years, leaving as a division chief.
I have been at the University of Maryland since. I am a founding member and
past-Chair of the International Association for Fire Safety Science—the
principal world forum for fire research. I have followed the investigation from
onset of the incident, as I was about to teach fire investigators at the ATF
Academy (FLETC) in Georgia on the morning of 9/11. I joined the SSC team of
Sally and Monica after we mutually discovered each other by speaking our
concerns on the WTC collapse. I have published in the area of the WTC incident,
our students built a scale-model of the fire on a floor of the North Tower, and
I have followed the NIST activities from before their special funding. I
assisted NIST early in 2002 in viewing photographs and video held by the NY
Times. I had wished for clear and complete analyses and evidence to determine
the full cause of the factors behind and the reasons for the collapse of the
WTC buildings, as they bear on the fire safety design of current and future
buildings. I am also concerned about the lack of sufficient government support
for fire research and its implementation in fire safety design, codes and
standards.
Concerns about the NIST Investigation
Scientists at NIST should be commended for their
individual efforts in rising to the occasion of the WTC investigation. NIST
should be commended for organizing an activity of this scale for the first
time. However, there are some issues of concern that I will summarize. All of
these have been submitted to NIST, but never acknowledged or answered. I will
list some of these.
1. Why is not the design process of assigning fire protection to the WTC
towers fully called out for fault? The insulation thickness of the truss
members varied from 0.5 inches at its construction, changed to a specification
of 1.5 inches in 1995, and was taken on its face as 2.5 inches for the North
tower fire floors based on a PA report. This extraordinary range of thicknesses
bears an in depth investigation. Why were no hearings held or witness
testimonies heard on this critical design process?
2. Why were not alternative collapse hypotheses investigated and discussed
as NIST had stated repeatedly that they would do? Their current explanation for
the collapse of the towers is critically based on an assumption that the
insulation was removed from the steel in the path of the aircraft, particularly
the core columns. NIST does not show calculations or experiments to
satisfactorily confirm that the insulation was removed in the core. As some
large aircraft components went directly through the buildings, and NIST
indicates the others were splintered on impact, can they explain why these
small splinters could still denude the steel?
3. Spoliation of a fire scene is a basis for destroying a legal case in an
investigation. Most of the steel was discarded, although the key elements of
the core steel were demographically labeled. A careful reading of the NIST
report shows that they have no evidence that the temperatures they predict as
necessary for failure are corroborated by findings of the little steel debris
they have. Why hasn’t NIST declared that this spoliation of the steel was a
gross error?
4. NIST used computer models that they said have never been used in such
an application before and are the state of the art. For this they should be
commended for their skill. But the validation of these modeling results is in
question. Others have computed aspects with different conclusions on the cause
mechanism of the collapse. Moreover, it is common in fire investigation to compute
a time-line and compare it to known events. NIST has not done that.
5. Testing by NIST has been inconclusive. Although they have done fire
tests of the scale of several work stations, a replicate test of at least &
of a WTC floor would have been of considerable value. Why was this not done?
Especially, as we have pointed out to NIST that they may have underestimated
the weight of the furnishings in the North Tower by a factor of 3. As fire
effects on structure depend on temperature and time, this likely longer burning
time is significant in the NIST analyses. Other tests of the trusses in the UL
furnaces show that the steel attains critical temperatures in short times, and
these temperatures correspond to NIST’s own computation of truss failure for a
single truss. Why have these findings seemingly been ignored in the NIST
analyses?
6. The critical collapse of WTC 7 is relegated to a secondary role, as its
findings will not be complete for yet another year. It was clear at the last
NIST Advisory Panel meeting in September that this date may not be realistic,
as NIST has not demonstrated progress here. Why has NIST dragged on this
important investigation?
On the Recommendations
The eight group-headings of the NIST recommendations
are not specific, as they cannot connect directly to their findings. Instead
they speak to developing, improving or advancing technology for safety from
fire. Hence, they really cry out for more research, technology adaptation, and
education with respect to fire. This is understandable as the NIST role has
been to be a leader in research, and a source of new knowledge for codes and
standards. The Science Committee and the Congress should take note of the needs
underlying the nature of these recommendations. They are more a need for
research to assist standards.
NFPA testified at the Hearing that the implementation
of new performance-based codes requires tools that have not yet been developed
and nor are there sufficient people to understand how to use them. Congressman
Boehlert pointed out to Sally Regenhard many are ”do-gooders” that
serve on the standard committees, but few come to the table with technical
information that is needed for a full discussion. This transfer of technical
information for standards in fire safety is only a role that government can
effectively support. The Science Committee should thoughtfully consider how
that support could be implemented.
I point out some alarming facts. The fire program at
NIST received a boost in the 1970’s under the confluence of several forces: NSF
advancing $2 million per year for fire research, consumer product safety
legislation (CPSC), and the funding advanced by industry and government
agencies for fire research (about $ 2–3 million per year). This funding has
considerably dropped in real dollars. The NIST fire program continues to
survive by taking contracts from government and the private sector that could
otherwise support academic or private industry. The extramural research program
of NIST, inherited from NSF, has shrunk from effectively $2 million to about
$500k in 1970 dollars. The NSF has defaulted a fire program to NIST so
investigators in academia have no program to turn to at NSF. The NASA
microgravity program had taken up the slack in fire research beginning about
1985, but its current fire research budget has been decimated in a shift from
space station needed research to a Mars human flight program. The Science
Committee has oversight over NSF, NASA, and NIST. It should investigate how it
can best support the needed fire research.
NIST speaks to the need for education. I left NIST to
contribute to that goal. The U.S. produces about 50 fire protection engineers
per year when about 500 are really needed. If the fire service would
incorporate fire engineers this number would double. There is a big lack of
knowledge here, and it contributes to an infrastructure of fire safety that is
currently fraught with good intentions, special interests, and ignorance. The
Science Committee should recognize this deficiency.
James G. Quintiere
The John L. Bryan Professor
Fire Protection Engineering
University of Maryland
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Fireproofing Blown Off Twin Towers
REPORT DETAILS 9/11 COLLAPSE IN N.Y.
BY MICHELLE GARCIA
SPECIAL TO The Washington Post
WEDNESDAY, APRIL 6, 2005; PAGE A03
NEW YORK,
April 5—The hijacked airplanes that struck the World Trade Center hit with such
force that the resulting explosions blew the fireproofing off the steel
columns, accelerating heat buildup and weakening the structural
core—contributing to the towers’ eventual collapse, according to a report
issued Tuesday.
The process was hastened by fires outside that consumed
the buildings’ face and caused the exterior columns to bow in, according to the
report.
Still, the study by the National Institute of Standards
and Technology concluded that no amount of fireproofing could have saved the
buildings.
Poor evacuation procedures, lack of communication and
weak staircases cost the lives of civilians and emergency workers at the
towers, as workers waited for directions and were slow to leave after the Sept.
11, 2001, attack, the report said.
Only two of the 198 elevators in the towers survived
the initial explosions—forcing most survivors to escape down emergency
stairwells, which had suffered extensive damage. The report found that building
codes lacked requirements sufficient to protect the structure of emergency
stairwells.
Had such codes been in place, said S. Shyam Sunder, the
lead investigator of the Institute, ”there would have been greater opportunity
for people to evacuate.”
Another federal report issued Tuesday found that the
economic impact of the attacks was less than New York officials had originally
estimated. After the attacks, State and city officials said the loss of tax
revenue could approach $5.8 billion.
But the Government Accountability Office said the loss
attributable to the attacks was closer to $2.9 billion and cited the city’s
recession, which had begun to take a toll before Sept. 11, for the rest of the
loss.
The institute’s report on the building collapse was
long awaited by city officials. The institute based its analysis on extensive
interviews with about 1,000 survivors, computer modeling, recovered steel and
communications records.
The Institute will use the findings in the 3,000-page
report to formulate recommendations—expected for release in September—for
changes in national building codes for office towers. A spokesman at the Port
Authority of New York & New Jersey, which owned the World Trade Center,
said local and State officials will review the recommendations and use them to
guide reconstruction at Ground Zero.
”Whatever recommendations are adopted we will
follow,” said authority spokesman Steve Coleman. ”Our engineering department
has oversight over the buildings [and] will ensure the codes are followed.”
In the past, city safety codes for office buildings
often were a sort of informal compromise between safety and commercial
imperatives. In 1968, New York City officials drastically reduced the number of
required stairwells in skyscrapers, at the request of the real estate industry,
to increase the amount of available rental space.
New York was, in fact, fortunate that the attacks took
place in the morning, when most people had not yet reached their offices. If
the building had been fully occupied, the report found, a full evacuation would
have taken four hours and cost 14,000 lives.
The agency interviewed survivors and found that,
although most had participated in a fire drill, nearly one-half had never used
the stairwells in the buildings before the attacks. In fact, New York City
prevents the use of stairwells during fire drills.
”I’ve never heard of another jurisdiction having such
a prohibition,” Sunder said.
Staircases in Twin Towers Are Faulted
BY JIM DWYER
THE NEW YORK TIMES
APRIL 6, 2005
he staircases in the twin towers—their number,
location, and the weak walls around them—emerged as critical factors in the
deaths of many of those killed in the Sept. 11 terrorist attack on the World
Trade Center, according to a federal safety report released yesterday. The
findings will be used to shape federal recommendations for building-code
changes across the country.
And after more than two years of intensive research,
investigators uncovered what they said was an elementary shortcoming in the
trade center towers: neither building had enough staircases to meet any of the
major building codes in the country, including New York City’s.
For nearly every man and woman on the upper floors of
the towers, the lack of intact staircases meant that they could not get out
after the planes struck. Clustered in the centers of the buildings, those
staircases were encased in lightweight drywall that was immediately destroyed.
Sturdier walls around staircases that were remote from each other ”might have
provided greater opportunities for escape,” said the lead investigator, Shyam
Sunder.
In a sobering lesson drawn from one of the day’s great
successes—the escape of nearly everyone below the points of impact, about
14,000 people—the report said that it had taken about twice as long to go down
a single flight of stairs as had been projected by the current engineering
standards for tall buildings. The buildings were only half full, investigators
said, and if the attack had come at a time when they were filled to occupancy,
the evacuation would not have been successful. Thousands more people were
likely to have been trapped on the stairs, Mr. Sunder said.
The report, issued by the National Institute of
Standards and Technology, also formally confirmed what had long been identified
as a significant failure on that day: the leaders of New York’s Police and Fire
Departments did not coordinate their efforts that morning. The investigation
suggested that many of the rescuers died because they simply did not know what
was happening around them.
”A preponderance of evidence indicates that a lack of
timely information sharing and inadequate communications capabilities likely
contributed to the loss of emergency responder lives,” the report stated. It
cited an interview with an unnamed firefighter who told the investigators, ”If
communications were better, more firefighters would have lived.”
The findings were included in a draft final report from
the institute, a branch of the United States Commerce Department that was given
authority by Congress in 2002 to investigate the towers’ collapse, the
evacuation and the emergency response.
The findings total some 10,000 pages, of which 3,400
were made public yesterday. The remainder will be released later in the spring,
according to Mr. Sunder. The institute will make recommendations on
improvements in the areas it studied.
Building-code changes are decided by local governments,
generally using model codes developed by technical experts who work with the
insurance and real estate industries.
In a presentation yesterday at a Times Square hotel,
Mr. Sunder outlined the techniques used to project the sequence of events that
led to the collapse of each tower. Although each building was hit by virtually
identical planes, the south tower collapsed in 56 minutes and the north tower
in 102 minutes.
A combination of common factors shaped the course of
events, he said. The planes plunged through the exterior curtain of each
building and fragmented as they passed through the building, with parts
emerging on the other side. The impacts killed hundreds of people instantly. In
the north tower, American Airlines Flight 11, moving at 443 miles per hour,
took .685 seconds to pass through the building; in the south tower, United Airlines
175, hitting at 542 miles per hour, passed through in .58 seconds.
The impact changed tower structures in two critical
ways, Mr. Sunder said. First, of the 47 columns in the core of each building,
nine were either severed or badly damaged in the north tower, and 11 in the
south tower. Second, the impact dislodged the fireproofing that was sprayed on
the floors and the columns. As the fires ignited by the jet fuel burned, the
floors were weakened.
The floors played an important role in the structures,
because they connected the exterior supports—the pinstripe columns that gave
the towers their distinctive appearance—to the columns hidden in the cores of
the buildings. As the unprotected floors were weakened by fire, the exterior
columns bowed inwards, the investigators reported. In the north tower, a
photograph showed they had moved 55 inches off center a few minutes before the
collapse; in the south tower, they were 20 inches off center. As those columns
became unstable, the building load shifted, but the instability was too great
and the cascade of collapse began.
Much of the jet fuel burned outside the buildings in a
fireball, but enough remained inside to ignite the office furnishings and
building contents.
In its early phases, the investigation by the institute
raised serious questions about the adequacy of the original fireproofing applied
to the steel in the towers, and Mr. Sunder said those concerns remained. But,
he said, in the areas where the fires were most severe, the amount of
fireproofing that originally had been applied was ”moot” because whatever had
been there was knocked off by the planes.
Hundreds of people were trapped above the impact, on
floors where there was no immediate damage. This made escape routes an
important part of the agency’s study.
During the design of the trade center, the Port
Authority of New York and New Jersey had decided to use a new version of the
city building code that did not require as many staircases as the earlier
edition. Instead of six staircases, including a specially reinforced fire
escape, the trade center had three stairs in each tower. The investigators
determined, though, that even the liberalized code required a fourth staircase,
to accommodate the more than 1,000 people expected in the restaurant at the top
of the north tower and at the observation deck atop the south tower.
As an interstate agency, the Port Authority is not
bound by local building codes, but it had publicly pledged to ”meet or
exceed” the city code in building the trade center. However, the institute
investigators determined that the Port Authority had not supplied enough
staircases.
”Once you go over 1,000 people on a floor, you need to
have a fourth stairway,” said Richard W. Bukowski, a senior engineer with the
institute. A spokesman for the Port Authority said its engineers believe that
the findings are mistaken. New York City building officials who reviewed the
trade center plans, both in the 1960’s and after the 1993 terrorist bombing,
had not raised any questions about the missing staircase.
Glenn Corbett, a professor at John Jay College of
Criminal Justice and an adviser to the institute investigation, said he had
asked about the exits for the restaurant and the observation deck. ”Imagine
what a staircase in the right spot might have done for people that day,” Mr.
Corbett said.
One of the documents included in yesterday’s report
showed that the Port Authority was eager to cut down on the amount of space
devoted to stairs.
”The tower core should be redesigned to eliminate the
fire towers and to take advantage of the more lenient provisions regarding exit
stairs,” wrote Malcolm P. Levy, the Port Authority’s chief planning engineer,
who is now deceased.
In the impact area of the north tower, the three
staircases were about 70 feet apart and were destroyed immediately.
In the south tower, the plane hit on floors where the
three staircases were about 200 feet apart, and one of them survived at least partially
intact.
3-Year Federal Study of 9/11 Urges Rules for Safer Towers
BY JIM DWYER AND ERIC LIPTON
THE NEW YORK TIMES
JUNE 22, 2005
After an exhaustive, three-year study of the collapse
of the World Trade Center, a federal panel will call for major changes in the
planning, construction and operation of skyscrapers to help people survive not
only terrorist attacks but also accidental or natural calamities, according to
officials and draft documents.
The recommendations, to be made public tomorrow,
include a call for a fundamental change in evacuation strategies for tall
buildings: that everyone should have a way out in an emergency, replacing the
current standard of providing evacuation capacity for a few floors near a fire
or emergency. The panel also called for sturdier elevators and stairways, and
found that current standards for testing fireproofing of steel for tall
buildings are flawed.
Taken together, the recommendations, by the National
Institute of Standards and Technology, are likely to open an intense national
debate over the costs of such changes and whether lessons for other skyscrapers
can reasonably be drawn from the extraordinary events of Sept. 11.
The agency’s proposals are not binding, but are meant
to influence the policies of cities and states across the country. Many of them
have become public in draft form during the three-year inquiry and have
prompted fierce lobbying or objections from prominent engineers, building
industry professionals, and the Port Authority of New York and New Jersey,
which built the trade center. While the agency has revised certain aspects of
its findings on what precisely happened at the trade center, the package of
recommendations makes it clear that the agency has essentially held firm on its
emphatic and demanding safety agenda for the next generation of tall buildings
in America.
S. Shyam Sunder, the engineer who oversaw the inquiry
for the agency, said the investigators worked to identify issues of ”safety
for the vast majority of buildings” in fires, earthquakes, power losses and
sudden hurricanes. The costs of the changes are unknown, but structural
engineers suggested they would add two to five percent to development costs of
ordinary buildings.
The study disclosed that critical design benchmarks and
code standards used in the construction of the trade center—the time it takes
to walk down stairs, the distance separating stairways, and the fire-resistance
tests—turned out to have little relationship to the experiences or needs of
people inside the towers. These findings, Dr. Sunder said, have broad application
to buildings everywhere.
The investigation also found that most building codes
do not recognize that people on high floors are isolated and easily cut off
from help during an emergency.
The inquiry,
conducted by more than 200 technical experts and contractors working for the
agency, amounts to a 10,000-page autopsy of the trade center collapse. The
report includes 25 pages of recommendations, which will be released for the
first time as a full set in New York tomorrow.
”The whole purpose of the investigation was to make
building occupants and first responders safer in future disasters and to learn
whatever we could from what happened on 9/11,” Dr. Sunder said. ”The
recommendations will be reasonable and achievable.”
In the United States, building codes are generally
adopted by local and State governments that use models developed by private
groups like the National Fire Protection Association, established by the
insurance industry, and the International Building Code Council, an
organization of government construction regulators. Those two groups have set
up committees to evaluate the recommendations.
”Will all the recommendations be accommodated verbatim
in building codes? I think the answer is no,” said Mohammed M. Ettouney, a
principal at Weidlinger Associates, a New York-based structural engineering
firm that is doing the security-related design work on the Freedom Tower
planned for ground zero. ”But it will act as a lightning rod for a debate that
will now really get under way.”
The trade center towers, where 2,749 people died in the
Sept. 11 attack, were only one-third occupied that morning. If the buildings
had been full, it is likely that 12,000 more people would have died because of
limited evacuation capacity, the investigation found.
Already, a proposal for wider exits—making it possible
for people to leave faster but reducing the amount of rentable space—has been
rejected by one major code-writing organization.
Others have suggested that it is folly to think
different rules might have forestalled the collapses.
”They are leading the public down the wrong path,”
said Jon Magnusson, whose Seattle-based structural engineering firm, Magnusson
Klemencic Associates, is the descendant of the company that designed the twin
towers. ”They are saying we are going to fix the codes in order to deal with
Sept. 11th. The physics say that you can’t do that.”
Dr. Sunder says that is a mistaken reading of the
investigation. The agency, he said, does not suggest that buildings should be
able to stand up to airplane impacts. ”It is more cost effective to keep
terrorists away from airplanes, and airplanes away from buildings,” he said.
The trade center was built by the Port Authority, which
is not subject to any building codes. Despite promises by the Port Authority to
”meet or exceed” the New York City code, the federal investigation found that
the trade center had fewer exit staircases than required and that the Port
Authority never tested the fire resistance of the floors. It also found no
evidence that a rigorous engineering study supported the authority’s repeated
public assertion that the towers could stand up to the impact of a fully loaded
commercial airliner.
In recent
presentations, Dr. Sunder suggested that agencies that are exempt from building
codes, such as the Port Authority, should have an independent party certify
their compliance with codes, rather than simply deciding for themselves.
The three-year, $16 million federal investigation was
broken into two primary parts. Using computers to reconstruct the attack,
engineers found that when the towers were struck, they redistributed load to
surviving columns. Once the fire weakened those remaining, extremely stressed
columns, whose fireproofing had been knocked off by the planes, the structures
collapsed, the report says.
That research found no flaw in the design of the towers
that was a critical factor in the collapse, Dr. Sunder said.
As the computer reconstruction of the towers proceeded,
others worked on a second inquiry: identifying weaknesses in building codes.
For example, investigators determined that if the
towers had been fully occupied, it would have taken about four hours for
survivors to exit, more than twice the time either tower stood and twice as
long as planners had estimated. That led to the call for changes in evacuation
planning.
At least some elevators in tall buildings should be
built with more robust shaft walls and with electrical systems that will not
fail if exposed to water, the report says, so that they can be used to evacuate
people who cannot descend long distances and to take firefighters to high
floors.
The investigation also raised hard questions about the
usefulness of a century-old furnace test that measures the fire resistance of
structural components. Last summer, the National Institute of Standards and
Technology arranged a furnace test of a 17-foot piece of steel and concrete
floor, the standard requirement at the time that the towers were erected. The
floor passed the test. However, the tower floors were built not with 17-foot
lengths of floor, but with 35- and 60-foot lengths. When a 35-foot length was
tested in the furnace, the floor failed the fire-rating requirement.
The recommendations also say that tall buildings should
be designed to prevent ”progressive collapse,” avoiding a cascade of failures
that can bring down a tower in seconds.
The study found that sprinklers, which can replace or
reduce other fire-protection systems, should have a redundant water supply or
power backups, to avoid being knocked out with one blow. Requirements for how
well spray-on fireproofing should adhere to the steel columns also must be
clarified, Dr. Sunder said.
The debate over integrating the proposals into building
codes and practices will undoubtedly be intense. Mr. Magnusson serves on the
special eight-member committee set up by the National Fire Protection
Association, along with Sally Regenhard, Chairwoman of the Skyscraper Safety
Campaign, who is one of the Nation’s most vocal advocates for tougher building
codes. She and Monica Gabrielle, a co-founder of the skyscraper campaign,
lobbied Congress to finance the agency’s investigation and have demanded that
the institute not dilute its findings.
”We have to restore the public’s
perception of safety in skyscrapers,” said Ms. Regenhard, whose son, a
probationary firefighter, was killed in the attack.
The International Building Code Council moved last year
to require that towers taller than about 40 stories have three hours’ worth of
fireproofing on structural elements, instead of two hours, but rejected
proposals that would require wider stairwells and reinforced concrete or
masonry walls in buildings over 25 stories.
The National Fire Protection Association, meanwhile, is
expected to act in August to require stairwells that serve 2,000 or more people
to be a foot wider than currently mandated, an official at the organization
said.
CORRECTION: A front-page article on Wednesday about a
federal study calling for major changes in skyscraper construction for safety
in light of the destruction of the World Trade Center misstated the name of an
organization of construction regulators. It is the International Code Council,
not the International Building Code Council.
9/11 Firefighters Told of Isolation Amid Disaster
BY JIM DWYER AND MICHELLE O’DONNELL
THE NEW YORK TIMES
SEPTEMBER 9, 2005
The
firefighters had 29 minutes to get out of the World Trade Center or die. Inside
the north tower, though, almost none of them realized how urgent it had become
to leave.
They had no idea that less than 200 feet away, the
south tower had already collapsed in a life-crushing, earth-shaking heap. Nor
did the firefighters know that their commanders on the street, and police
helicopter pilots in the sky, were warning that the north tower was on the edge
of the same fate.
Until last month, the extent of their isolation from
critical information in the final 29 minutes had officially been a secret. For
three and a half years, Mayor Michael R. Bloomberg refused to release the Fire
Department’s oral histories of Sept. 11, 2001. Under court order, however,
12,000 pages were made public in August.
On close review, those accounts give a bleaker version
of events than either Mayor Bloomberg or former Mayor Rudolph W. Giuliani
presented to the 9/11 Commission. Both had said that many of the firefighters
who perished in the north tower realized the terrible danger of the moment but
chose to stay in the building to rescue civilians.
They made no mention of what one oral history after
another starkly relates: that firefighters in the building said they were
”clueless” and knew ”absolutely nothing” about the reality of the gathering
crisis.
In stairwells or resting on floors, they could not see
what had happened or hear clearly stated warnings. Even after the south tower
fell, when few civilians remained in the lower floors of the north tower,
throngs of firefighters lingered in the lobby and near the 19th floor as time
ran down, the survivors said.
”That’s the hard thing about it, knowing that there
were so many other people still left in that lobby that could have got out,”
Firefighter Hugh Mettham of Ladder Company 18 said.
Although no official summary specifies where the 343
firefighters died in the rescue effort, a review by The New York Times of
eyewitness accounts, dispatch records and federal reports suggests that about
200 perished in the north tower or at its foot.
Of 58 firefighters who escaped the building and gave
oral histories, only four said they knew the south tower had already fallen.
Just three said they had heard radio warnings that the north tower was also in
danger of collapse. And some who had heard orders to evacuate debated whether
they were meant for civilians or firefighters.
‘Not in My Wildest Dream’
”Not in my wildest dream did I think those towers were
coming down,” said David Sandvik of Ladder 110.
The point made by both Mr. Giuliani and Mr. Bloomberg
to the 9/11 Commission—that firefighters died because they delayed their own
departures while trying to save the lives of civilians and other
firefighters—is, in one sense, fully corroborated by the oral histories.
Even so, measured against the waves of details in those
accounts, those valiant last-minute efforts explain just a fraction of the firefighter
deaths in the north tower, a small vivid thread running through the broader
fabric of the day.
No one in the Fire Department has tried to use the oral
histories to reconstruct the events that led to its human losses that day.
Although more than 500 interviews were conducted, just about 10 percent of them
involved people who had been inside the north tower. (No firefighters in the
south tower, which fell first, are known to have survived its collapse.) Many
who escaped from the north tower did not give histories. Few follow-up
questions were asked of those who did.
The ragged character of the records does not yield a
clear explanation for the isolation of the rescuers within the building, and
whether it was because of radio failure, a loss of command and control or flaws
in the Fire Department’s management structure. Some firefighters described
receiving a radio message to evacuate; others used strong language to
characterize the communications gear as useless.
Despite their spottiness, the oral histories fill out
incomplete chapters in the sprawling chronicle of what happened in New York
that morning, much of which took place far beyond the sight of television
cameras and their global audience.
Firefighters wondered aloud how they could have
attacked a fire reached at the end of a four-hour climb. They marveled at the
decency of office workers coming down the stairs, at the bellowing, dust-coated
chief on the sidewalk who herded the firefighters clear of the collapse zone,
at the voices of experience that brooked no hesitation.
The final moments of the department’s senior leaders
also rise from the histories as a struggle to rescue dozens of firefighters
trapped in the Marriott Hotel after the south tower’s collapse. As they worked,
the north tower crashed down, killing, among others, Chief of Department Peter
Ganci, First Deputy Commissioner William Feehan, and Battalion Chiefs Ray
Downey and Lawrence Stack.
Precisely 29 minutes earlier, at 9:59 a.m., the fall of
the south tower shook the north tower and stopped the slow, muscular tide of
rescuers. By then, the north tower firefighters had been on the move for more
than an hour. Each carrying about 100 pounds of gear, only a few had climbed
much higher than the 30th floor. Some recalled hearing radio messages from
individual firefighters who had made it as far as the 40’s.
The calamity next door—the collapse of one of the
biggest buildings in the world—was heard but not seen; felt but not understood.
The staircases had no windows. Radio communication was erratic. Few
firefighters even knew a second plane had struck the other building.
From the street, Chief Ganci twice ordered firefighters
to evacuate the north tower, according to Chief Albert Turi, but it was not
clear who inside, if anyone, heard him. Even Chief Turi, standing a few feet
away, said it had not come over his radio.
Still, many decided to leave after hearing a rumor of a
partial collapse some floors above them, or because they assumed another plane
had hit.
On the 37th floor, Daniel Sterling, of Engine Company
24, had stopped with firefighters from Ladder 5 and Engine 33—who did not
survive—when the building rattled. A moment later, Firefighter Sterling said,
Chief John Paolillo appeared.
”He thought there was a partial collapse of the 65th
floor of our building and that we should drop everything and leave,” Firefighter
Sterling said.
‘Get Up and Go, Go, Go’
A few floors below, around the 30th or 31st floor,
Chief Paolillo was spotted again. ”He was yelling, ‘Leave your equipment and just
get up and go, go, go,’ like that,” Lt. Brian Becker of Engine 28 said. Chief
Paolillo died.
The word to leave was passed to the 27th floor, where
many firefighters were resting, including Michael Wernick of Ladder 9. ”I know
that there was no urgency at that point trying to get out of the building,” he
said.
”Do you think anyone around you was aware that the
other building collapsed?” an interviewer asked.
”No,” he replied.
One exception was Firefighter John Drumm with Engine
39, who said that on the 22nd floor, he heard a transmission: ”Imminent
collapse of the north tower. Immediate evacuation.”
Then he made a point repeated in nearly every
interview: ”From what I saw on the way down, very, very few civilians were left.”
Firefighter Sterling said, ”There was nobody in the
staircase on the way down.”
Lieutenant Becker said, ”There were no civilians to
speak of in our stairway. There were a couple of stragglers being helped by
somebody or other.”
Probationary Firefighter Robert Byrne of Engine 24,
working his first fire, reached the 37th floor. ”I remember going up the
stairs took us over the hour,” he said. ”Getting down the stairs took maybe
10 minutes, not even.”
Also on 37, Capt. John Fischer of Ladder 20 discovered
that two of his company had gone up ahead. ”He was screaming at them for them
to get back down,” said Lt. Gregg Hansson of Engine 24, who was with Captain
Fischer. ”Then he went up to get them.” Captain Fischer and his men died in
the collapse.
Firefighter William Green of Engine 6 was one of the
few who said he knew the other tower had fallen. On the 37th floor, ”someone
opened the door from the 36th floor and said Two World Trade Center just fell
down,” he said. Over the radio, he heard ”Mayday, evacuate.”
Slowed by firefighters entering the staircase below
him, he switched sides. ”In hindsight, I think that’s what saved my life,” he
said.
He did not dawdle. ”Around the fourth floor, I passed
this civilian—he might have been 450 pounds,” Firefighter Green said. ”He was
taking baby steps like this. I walked right past him like all the other
firemen. I felt like a heel when I’m walking past him, and I’m thinking to
myself, what does this guy think of me?”
Yet other chronicles show that a very heavy man in that
location was eventually dragged to safety by rescuers who included Firefighter
Pat Kelly of Rescue 18. Having helped move the man outside, Firefighter Kelly
was the only member of his squad to survive. He did not give an oral history.
Elsewhere, crowds of firefighters lingered.
Lt. William Walsh of Ladder 1 said he heard a Mayday to
evacuate when he was around the 19th floor, but did not know that a plane had
struck the other building, much less that it had collapsed. As he descended, he
saw firefighters who were not moving.
No Rush to Get Out
”They were hanging out in the stairwell and in the
occupancy and they were resting,” Lieutenant Walsh said. ”I told them,
‘Didn’t you hear the Mayday? Get out.’ They were saying, ‘Yeah, we’ll be right
with you, Lou.’ They just didn’t give it a second thought. They just continued
with their rest.”
Three court officers reported seeing as many as 100
firefighters resting on the 19th floor minutes before the building fell, but
they were not questioned by the Fire Department.
Mayor Bloomberg, in a letter to the 9/11 Commission,
wrote: ”We know for a fact that many firefighters continued their rescue work
despite hearing Maydays and evacuation orders and knowing the south tower had
fallen.”
Asked to reconcile this statement with the oral
histories, the city Law Department cited the accounts of eight firefighters and
said that each of them surely had spread the word about the collapse of the
other tower. In fact, in six of those oral histories, the firefighters
specifically said they did not know the other building had fallen.
In the lobby, just yards from safety, survivors said
that uncertainty doomed many firefighters.
John Moribito of Ladder 10 said there were maybe ”40
or 50 members that were standing fast in the lobby.” Roy Chelsen of Engine 28
said, ”There were probably 20 or 30 guys down in the lobby mulling around.”
The interviewer asked, ”They weren’t trying to get out?”
”They were just—no, no,” Firefighter Chelsen recalled.
His officer, Lieutenant Becker said, ”There was chaos
in the lobby. It was random people running around. There was no structure.
There were no crowds. There was no—no operation of any kind going on, nothing.
There was no evacuation.”
Firefighters with Ladder 11 and Engine 4 came down
together to the lobby, but not all made it out. ”Everyone is standing there,
waiting to hear what’s going to happen next, what’s going on,” Frank Campagna
of Ladder 11 said.
His company left, and a moment later, ”it came down on
top of us,” Firefighter Campagna said. ”Four Engine obviously didn’t make it
out. They were with us the whole time, so I’m assuming they were still in the
lobby at that time.”
The firefighters of Ladder 9 lingered briefly, and most
were clear of the building for less than a minute when it fell. Firefighter
Wernick remembered seeing two members of his company in the lobby, Jeffrey Walz
and Gerard Baptiste. They did not escape. The funeral for Firefighter Baptiste,
whose remains were identified this year, was held on Wednesday.
A Figure Coated in Dust
Over and over, firefighters who had left the building
in those final minutes, bewildered by the sudden retreat, the ruined lobby, the
near-empty street, mentioned a chief covered in the dust of the first collapse,
standing just outside the north tower on West Street.
Some knew his name: Deputy Assistant Chief Albert Turi.
”He was screaming, ‘Just keep moving. Don’t stop,’ ”
Firefighter Thomas Orlando of Engine 65 recalled, adding, ”I still didn’t know
the south tower collapsed.” Chief Turi, he said, ”saved an awful lot of
people.” The chief has since retired.
In blunt speech, free of the mythic glaze that
varnished much 9/11 discourse, some firefighters wondered why an endless line
of rescuers had been sent to an unquenchable fire that raged 1,000 feet up.
”I think if this building had collapsed an hour later,
we would have had a thousand firemen in there,” said Firefighter Timothy
Marmion of Engine 16, who carried a woman on a stretcher from the staircase to
an ambulance.
”If it would have collapsed three hours later,” he
said, ”we would have had 10,000 firemen in those buildings.”
Had the buildings not fallen, the gear-laden
firefighters would have needed about four hours—almost as long as it takes to
fly across the country—to reach workers trapped on the high floors.
”We were just as much victims as everybody that was in
the building,” Firefighter Derek Brogan of Engine 5 said.
”We didn’t have a chance to do anything,” he added.
”We didn’t have a chance to put the fire out, which was really all we were
trying to do.”
Aron Pilhofer provided computer analysis for this
article.
BUILDING SAFETY: Directing the Herd: Crowds and the Science of Evacuation
BY JOHN BOHANNON
SCIENCE, Vol. 310, Issue 5746, 219–221
OCTOBER 14, 2005
No skyscrapers are designed to be able to disgorge all
their occupants in a dire emergency like the attack on the World Trade Center
towers. Can they be made safer?
VIENNA, AUSTRIA—In the hour and 42 minutes that elapsed
between the first airplane strike on the World Trade Center (WTC) on 11
September 2001 and the collapse of both towers, more than 2000 people failed to
escape. Roughly 500 occupants are believed to have died immediately upon
impact, and more than 1500 trapped in upper floors died in the aftermath. The toll
might have been far worse, according to studies presented here at the
International Conference on Pedestrian and Evacuation Dynamics on 28 to 30
September. Had the same attack come when the towers were at their full capacity
of 20,000 people each, says Jason Averill, a fire safety engineer at the
National Institute of Standards and Technology (NIST) in Gaithersburg,
Maryland, the staircases would have quickly grid-locked, resulting in some
14,000 deaths.
No tall building is designed to be fully evacuated.
Instead, regulations typically require that a few floors be emptied, assuming
nothing worse than a localized fire. ”This has to change,” says Shyam Sunder,
Deputy Director of NIST’s Building and Fire Research Laboratory, ”because in
the lifetime of a building, there will be situations where you’ve got to get
everyone out.”
But getting everyone out of harm’s way will require a
deeper understanding of the collective behavior of crowds, says Jake Pauls, a
veteran building safety consultant now based in Silver Spring, Maryland.
Researchers are ”just scratching the surface,” says Averill, although they
have made leaps and bounds over the past few years. Studies presented at the
meeting offered a glimpse of how evacuations could be conducted more safely.
Modeling mobs
Until
recently, there was little science in emergency planning, says Ed Galea, a fire
safety engineer at the University of Greenwich, U.K. That is changing as
scientists try to capture the behavior of crowds using computer simulations. A
diverse effort is under way to refine these models with real-world data. For
example, a team led by Jean Berrou, a computer scientist at the Maia Institute
in Monaco, has been secretly filming pedestrians in 10 different cities around
the world, analyzing nearly 1000 hours of video to measure different cultural
patterns of walking. For example, he says, ”pedestrians in London are faster
than those in New York.”
The goal is to find rules that individual pedestrians
unconsciously follow to navigate crowded spaces. ”What’s amazing is that
people don’t collide with each other more often on a typical city sidewalk,”
says Jon Kerridge, a computer scientist at Napier University in Edinburgh, U.K.
On a scale of microseconds, people negotiate priority with cues transmitted
through body language. ”If we can understand how that works,” he says, we
might learn why certain geometries of corridors and portals work better than
others.
The next step is to understand how an emergency changes
everything. Researchers use a parameter called drive to define the level of
motivation people have to go from A to B. ”This is where things get very
difficult to model,” says Kerridge, ”because we’re talking about innate,
personal factors.”
Strange things happen when fear is added to the mix.
Take the paradox that the more urgently people want to leave a crowded room
with a narrow exit, the longer it takes to get out. That occurs in part because
of a breakdown in normal communications. Daniel Parisi and Claudio Dorso,
computer scientists at the University of Buenos Aires, Argentina, have found
that the optimum exit speed is a fast walk of about 1.38 meters per second.
Such studies reveal that ”the fundamental unit of a
crowd is not the individual but the cluster,” says Kerridge. This is because
”the first thing we do in an emergency situation is look to each other for
support and information.” But that response slows movement dramatically. On a
larger scale, people form groups similar to animal herds in which individuals
let the crowd do the navigating, often passing right by exits within clear
view.
Learning to predict and control these behaviors may
save lives—and not just in big buildings. The main killer when people mass is
not trampling, as is commonly thought, but ”crowd crush.” When two large
groups merge or file into a dead end, the density makes it impossible to fall
down, says Pauls. But the accumulated pushing creates forces that can bend
steel barriers. ”The situation is horrible,” he says: ”Suddenly everything
goes quiet as peoples’ lungs are compressed. No one realizes what’s happening
as people die silently.” Dangers like these make designing architecture and
procedures for evacuation like a tightrope walk, says Pauls: ”You have to get
people out fast, but safely.”
Revisiting 9/11
Armed with these insights, two separate groups have
been trying to model the WTC evacuation to see what lessons can be learned. In
2002, the U.S. Congress ordered NIST to investigate the WTC safety and
emergency response, and the U.K. government commissioned a team led by Galea,
which has paved the way for a larger study called HEED. ”This was one of the
largest full-scale evacuations of people in modern times,” says Galea.
To build a minute-by-minute chronology of the event,
the NIST team has conducted more than 1000 interviews with survivors by
telephone, and Galea’s team is set to do up to 2000 face-to-face interviews
next year. One of the most surprising discoveries, says Galea, is the long lag
time between the first attack and the start of evacuation. Galea’s team found
that although 77 percent of survivors began the egress within five minutes of
the impact, it took another hour for the next 19 percent to get going, and four
percent stayed in their offices for over an hour. ”In some cases people were
more worried about saving their computers,” he says.
Both teams have incorporated these data into a model
called EXODUS, designed by Galea. When the NIST team used the model to play out
the WTC disaster with full occupancy, it estimated roughly 14,000 deaths, most
among those stuck on the stairs. This didn’t surprise Pauls.
”Those stairs were not designed to handle a full
evacuation,” he says. ”In fact, no tall building is prepared for it.” Sunder
says NIST is pushing to include full evacuation for many tall buildings in the
next review of U.S. building codes in 2008. ”There is a lot of resistance” to
requiring full evacuation capability even after the WTC attacks because people
”believe that was a one-time-only event,” he says. But he notes that a
building’s typical lifetime is a century; designers should be preparing for
other ”extreme events” like multi-floor fires, earthquakes, and hurricanes.
Until the existing tall buildings are replaced with a
new generation, experts say, improvements will have to come through better
emergency procedures and retrofitting. For one, elevators should be made usable
during emergencies, says Sunder. WTC tower number 2 emptied far more
efficiently than tower 1 because its elevators were available before it was hit
by the second plane, the studies found. New elevator systems that include
independent power supplies and computers that prevent them from opening on a
burning floor will be available within a few years, says Averill. Galea
suggests another possible innovation: adding sky bridges to create new escape
routes linked to other buildings. His simulation of a WTC evacuation with the
towers linked by a bridge was far more efficient.
Evacuation experts say they are continuing to look at
all kinds of evacuation backups, even far-out ones. For example, a pole system
that can be attached to the outside of buildings is being tested. By strapping
into a vest attached to the pole, people could slide down safely using
electromagnetic brakes. Another option: People could jump into fabric tubes and
bounce their way down to the bottom—although this would likely cause friction
burns. Even parachutes have been proposed as a last chance resource.
”But really, the best thing we can do to make these
buildings safer,” says Pauls, ”is to focus on the basics.” That means better
stairs, elevators, and fire drills.
(Footnote
1 return)
NIST is a nonregulatory agency of the U.S. Department of Commerce. The purposes
of NIST investigations are to improve the safety and structural integrity of
buildings in the United States and the focus is on fact finding. NIST
investigative teams are required to assess building performance and emergency
response and evacuation procedures in the wake of any building failure that has
resulted in substantial loss of life or that posed significant potential of
substantial loss of life. NIST does not have the statutory authority to make
findings of fault or negligence by individuals or organizations. Further, no
part of any report resulting from a NIST investigation into a building failure
or from an investigation under the National Construction Safety Team Act may
be used in any suit or action for damages arising out of any matter mentioned
in such report (15 USC 281a, as amended by P.L. 107–231).
(Footnote
2 return)
The focus of the Investigation was on the sequence of events from the instant
of aircraft impact to the initiation of collapse for each tower. For brevity,
this sequence is referred to as the ”probable collapse sequence,” although it
includes little analysis of the structural behavior of the tower after the
conditions for collapse initiation were reached and collapse became inevitable.
(Footnote
3 return)
Or a more appropriate limit, which represents a reasonable area for active
firefighting operations.
(Footnote
4 return)
A group of individuals that is knowledgeable, experienced, and specifically
trained in gathering, processing, and delivering information critical for
emergency response operations and is ready for activation in large and/or
dangerous events.
(Footnote
5 return)
The availability of inexpensive electronic storage media and tools for creating
large searchable databases make this feasible.
(Footnote
6 return)
In projects involving a design team, the ”Design Professional in Responsible
Charge”—usually the lead architect—ensures that the team members use
consistent design data and assumptions, coordinates overlapping specifications,
and serves as the liaison to the enforcement and reviewing officials and to the
owner. The term is defined in the International Building Code and in the ICC
Performance Code for Buildings and Facilities (where it is the Principal Design
Professional).
(Footnote
7 return)
ASCE, founded in 1852, is the country’s oldest national civil engineering
organization. It represents more than 139,000 civil engineers in private
practice, government, industry, and academia who are dedicated to the
advancement of the science and profession of civil engineering. ASCE carried
out Building Performance Assessments of the World Trade Center, the Pentagon
and the Murrah Federal Building, and its technical assessments following
earthquakes, hurricanes, and other natural disasters. The New Orleans levee
technical group includes representatives appointed by the ASCE Geo-Institute
and ASCE Coasts, Oceans, Ports, and Rivers Institute. ASCE is a 501(c) (3)
non-profit educational and professional society.
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