Large eddy simulation of an opposed jet turbulent flame
File(s)ECM2017_0447_M_v_01.pdf (1.7 MB)
Published version
Author(s)
Gong, Y
Gallot Lavallee, S
Jones, WP
Type
Conference Paper
Abstract
A Large Eddy Simulation (LES) of a turbulent premixed flame in a counter-flow configuration is performed.
This burner is a benchmark for the analysis of turbulent flames with particularly the turbulence-chemistry
interaction. In the simulations combustion is modelled by means of the evolution of the joint sub-grid-scale
(sgs) probability density function. The solution of the transport equation for the scalars is obtained by the
stochastic field method. The results presented are a comparison with the experimental data for a reacting
and non reacting case and they include axial and radial velocities as well as OH plots.
This burner is a benchmark for the analysis of turbulent flames with particularly the turbulence-chemistry
interaction. In the simulations combustion is modelled by means of the evolution of the joint sub-grid-scale
(sgs) probability density function. The solution of the transport equation for the scalars is obtained by the
stochastic field method. The results presented are a comparison with the experimental data for a reacting
and non reacting case and they include axial and radial velocities as well as OH plots.
Date Issued
2017-04-21
Date Acceptance
2016-11-15
Citation
2017
Publisher
Combustion Institute
Copyright Statement
© 2017 The Authors.
Sponsor
Engineering & Physical Science Research Council (EPSRC)
ALSTOM (Switzerland) Ltd
Grant Number
EP/K026801/1
4500697255
Source
European Combustion Meeting 2017
Publication Status
Published
Start Date
2017-04-18
Finish Date
2017-04-21
Coverage Spatial
Dubrovnik, Croatia