Jones, W.
, Peacock, R.
, Forney, G.
and Reneke, P.
(2009),
CFAST: Consolidated Model of Fire Growth and Smoke Transport (Version 6). Technical Reference Guide., Special Publication (NIST SP), National Institute of Standards and Technology, Gaithersburg, MD, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=916872
(Accessed April 26, 2024)
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CFAST: Consolidated Model of Fire Growth and Smoke Transport (Version 6). Technical Reference Guide.
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Abstract
CFAST is a two-zone fire model used to calculate the evolving distribution of smoke, fire gases and temperature throughout compartments of a constructed facility during a fire. In CFAST, each compartment is divided into two gas layers. The modeling equations used in CFAST take the mathematical form of an initial value problem for a system of ordinary differential equations (ODEs). These equations are derived using the conservation of mass, the conservation of energy (equivalently the first law of thermodynamics), the ideal gas law and relations for density and internal energy. These equations predict as functions of time quantities such as pressure, layer height and temperatures given the accumulation of mass and enthalpy in the two layers. The CFAST model then consists of a set of ODEs to compute the environment in each compartment and a collection of algorithms to compute the mass and enthalpy source terms required by the ODEs. In general, this document provides the technical documentation for CFAST along with significant information on validation of the model. It follows the ASTM E1355 guide for model assessment. The guide provides several areas of evaluation: (*) Model and scenarios definition, (*) Theoretical basis for the model, (*) Mathematical and numerical robustness, (*) Model sensitivity and (*) Model Evaluation.Citation
Special Publication (NIST SP) - 1026
Report Number
1026
NIST Pub Series
Pub Type
NIST Pubs
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Keywords
CFAST, fire growth, smoke transport, fire models, zone models, algorithms, computer programs, smoke, fire gases, temperature, compartments, gas layers, scenarios, validation, ASTM E 1355, equations, snesitivity, plumes, vents, corridors, heat transfer, ceiling jets, heat detection, sprinkler activation, flashover, verification, geometry, small scale fire tests
Citation
Created April 1, 2009, Updated June 2, 2021