Publication result detail
Experiments and mathematical models of methane flames and explosions in a complex geometry
KOZUBKOVÁ, M.; KRUTIL, J.; NEVRLÝ, V.
Original Title
Experiments and mathematical models of methane flames and explosions in a complex geometry
English Title
Experiments and mathematical models of methane flames and explosions in a complex geometry
Type
WoS Article
Original Abstract
The paper focuses on the application of mathematical modeling of methane turbulent combustion in a complex geometry and on the choice of parameters of one-step and two-step chemical kinetics models. Parameters of chemical kinetics have a profound influence on the correct implementation of the combustion mathematical model used in the CFD (computational fluid dynamics) simulation of the methane–air mixture explosion in a family house. Results are compared with experimental measurements.
English abstract
The paper focuses on the application of mathematical modeling of methane turbulent combustion in a complex geometry and on the choice of parameters of one-step and two-step chemical kinetics models. Parameters of chemical kinetics have a profound influence on the correct implementation of the combustion mathematical model used in the CFD (computational fluid dynamics) simulation of the methane–air mixture explosion in a family house. Results are compared with experimental measurements.
Keywords
model of methane explosion, pressure wave, chemical reactions, kinetics
Key words in English
model of methane explosion, pressure wave, chemical reactions, kinetics
Authors
KOZUBKOVÁ, M.; KRUTIL, J.; NEVRLÝ, V.
RIV year
2015
Released
01.07.2014
Publisher
Pleiades Publishing
Location
Rusko
ISBN
0010-5082
Periodical
COMBUSTION EXPLOSION AND SHOCK WAVES
Volume
50
Number
4
State
Russian Federation
Pages from
374
Pages to
380
Pages count
7
BibTex
@article{BUT109211,
author="Milada {Kozubková} and Jaroslav {Krutil} and Václav {Nevrlý}",
title="Experiments and mathematical models of methane flames and explosions in a complex geometry",
journal="COMBUSTION EXPLOSION AND SHOCK WAVES",
year="2014",
volume="50",
number="4",
pages="374--380",
doi="10.1134/S0010508214040029",
issn="0010-5082"
}