GannRGHaminsAMcGrattanK. Reconstruction of the fires and thermal environment in World Trade Center buildings 1, 2, and 7. Fire Technol2013; 49(3): 679–707.
2.
GannRG (ed.) Federal building and fire safety investigation of the World Trade Center disaster: final report of the national construction safety team on the collapses of the World Trade Center towers. NIST NCSTAR 1, September2005. Gaithersburg, MD: National Institute of Standards and Technology (NIST).
3.
Stern-GottfriedJReinG. Travelling fires for structural design—part I: literature review. Fire Safety J2012; 54: 74–85.
4.
QuintiereJGdi MarzoMBeckerR. A suggested cause of the fire-induced collapse of the World Trade Center towers. Fire Safety J2002; 37(2): 707–717.
5.
NFPA 557. Standard for determination of fire loads for use in structural fire protection design. Boston, MA: NFPA, 2012.
6.
NatoriA. Research regarding analysis of the target safety standard for fire resistance design and its mode of expression: estimation for the safety standard targeted by the verification method for fire resistance performance. Fire Sci Tech2008; 27(3): 310–489.
7.
CaroTCMilkeJA. Survey of fuel loads in contemporary office buildings. NIST-GCR 96-697, September1996. Gaithersburg, MD: NIST.
8.
StewartK. Analysis of the fuel load calculations for the 96th floor of WTC north tower, private communication to JG Quintiere, 2005.
9.
QuintiereJG. Questions on the WTC investigation. In: PasmanHJKirillovIA (eds) Resilience of cities to terrorist and other threats (NATO science for peace and security series C: environmental security). Dordrecht: Springer, 2008, pp. 87–112.
