Published: September 01, 2005
Kevin B. McGrattan, Charles E. Bouldin, Glenn P. Forney
This report presents the results of numerical simulations of the fires in World Trade Center (WTC) 1 and WTC 2 on September 11, 2001. The calculations were performed with the National Institute of Standards and Technology (NIST) Fire Dynamics Simulator, a computational fluid dynamics model that describes the flow of smoke and hot gases from a fire. Before performing the simulations, the model was validated by comparing its predictions with measurements from a series of large scale fire experiments performed at NIST. The model also was enhanced to better describe the pyrolysis of charring fuels, like wood; and the computer program was re-configured to run on multiple processors. Input data for the simulations of WTC 1 and WTC 2 consisted of descriptions of the properties of typical office furnishings and jet fuel, floor layouts, exterior damage, and interior damage estimates. Results of the simulations were compared with visual observations. Predicted temperatures and gas concentrations were subsequently used to analyze the temperatures within steel trusses and columns.
Citation: National Construction Safety Team Act Reports (NIST NCSTAR) - 1-5Report Number:
NIST Pub Series: National Construction Safety Team Act Reports (NIST NCSTAR)
Pub Type: NIST Pubs
World Trade Center, high rise buildings, building collapse, disasters, fire safety, fire investigations, terrorists, terrorism, computer simulation, computational fluid dynamics, smoke flow, high temperature gases, large scale fire tests, pyrolysis, wood, floors
Created September 01, 2005, Updated February 19, 2017