Introduction to Mathematical Fire Modeling, Second EditionCRC Press, 2000. gada 14. jūl. - 275 lappuses Computer simulation proves to be a valuable tool for the analysis and prediction of compartment fires. With the proper understanding and software, fire safety professionals can use modeling tools and methods to find answers to many critical questions relating to the prevention, investigation, and reconstruction of compartment fires. Thoroughly updated and revised, An Introduction to Mathematical Fire Modeling, Second Edition introduces the concepts, software, and techniques of computer-aided mathematical modeling and the software for the analysis and prediction of a variety of compartment fires. Beginning with basic compartment fire theory, the author develops a simple mathematical model that provides an engineering approximation of the time-varying conditions created by fires in an enclosure that may be subject to hot-layer vents. This is the first book focused on the deterministic computer modeling of compartment fires, and the FIRM model presented is the first fire model to be documented, validated, verified, and evaluated according to ASTM guidelines. The text includes detailed information on the use of the QBASIC software provided on an enclosed CD-ROM. |
Saturs
Basic Compartment Fire Theory | 1 |
Introduction to Mathematical Compartment | 11 |
A Simple Room Fire Model | 51 |
Modifications to ASETQB | 69 |
The FIRMQB Model | 111 |
FIRMQB Users Manual | 119 |
Evaluation of the Predictive | 147 |
Conclusion | 179 |
Installing and Running the Software | 227 |
Visual Basic Programs | 241 |
257 | |
Citi izdevumi - Skatīt visu
Introduction to Mathematical Fire Modeling, Second Edition Marc L. Janssens Priekšskatījums nav pieejams - 2018 |
Bieži izmantoti vārdi un frāzes
acetone acetone dip tank ambient AP(Z ASET model ASET-QB ASTM Babrauskas bisection method burning rate calculated calorimeter CD-ROM Chair Chapter conservation equations constant data files developed energy enthalpy entrainment equal estimate Euler method evaluation example file name fire file Fire Protection Engineering FIRM-QB flashover floor flow regime fluid fuel surface function furniture calorimeter GW-BASIC heat loss fraction heat of combustion heat release rate heat transfer hot layer HRR-VB input data kg/s kJ/kg layer interface height layer vent flow lower layer m₁ mass flow mass loss rate method mixture OUTPUT FILE oxygen parameters personal computers predictive capability pressure difference QBasic QuickBasic radiation referred Room with Furniture screen Section shown in Figure simulation soffit solution source code specific heat specified stoichiometric subroutine T₁ thermal total heat U.S. engineering upper layer temperature values variables Visual Basic Westchase Windows Z₁ zone models Zukoski's
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