CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTION

Results of work on an extension of the turbulent flame speed model used for a mathematical description of partially premixed combustion are presented. The approach is based on the concept of internal coupling between the turbulence of the mixed fuel and oxidizer stream with the reaction progress va...

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Main Authors: JANUSZ BADUR, MICHAŁ KARCZ, TOMASZ WYSOCKI
Format: Article
Language:English
Published: Gdańsk University of Technology 2003-07-01
Series:TASK Quarterly
Subjects:
Online Access:https://journal.mostwiedzy.pl/TASKQuarterly/article/view/2186
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author JANUSZ BADUR
MICHAŁ KARCZ
TOMASZ WYSOCKI
author_facet JANUSZ BADUR
MICHAŁ KARCZ
TOMASZ WYSOCKI
author_sort JANUSZ BADUR
collection DOAJ
description Results of work on an extension of the turbulent flame speed model used for a mathematical description of partially premixed combustion are presented. The approach is based on the concept of internal coupling between the turbulence of the mixed fuel and oxidizer stream with the reaction progress variable. The model after implementation has been calibrated and tested on a BERL benchmark experiment.
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spelling doaj.art-f30aff07a838418bb5b407d8b9bf39b32022-12-22T00:40:19ZengGdańsk University of TechnologyTASK Quarterly1428-63942003-07-0173CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTIONJANUSZ BADUR0MICHAŁ KARCZ1TOMASZ WYSOCKI2Polish Academy of Sciences, Thermo-Chemical Power Department, Institute of Fluid-Flow MachineryPolish Academy of Sciences, Thermo-Chemical Power Department, Institute of Fluid-Flow MachineryPolish Academy of Sciences, Thermo-Chemical Power Department, Institute of Fluid-Flow Machinery Results of work on an extension of the turbulent flame speed model used for a mathematical description of partially premixed combustion are presented. The approach is based on the concept of internal coupling between the turbulence of the mixed fuel and oxidizer stream with the reaction progress variable. The model after implementation has been calibrated and tested on a BERL benchmark experiment. https://journal.mostwiedzy.pl/TASKQuarterly/article/view/2186premixed combustionturbulenceprogress variableBERL combustion chamber
spellingShingle JANUSZ BADUR
MICHAŁ KARCZ
TOMASZ WYSOCKI
CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTION
TASK Quarterly
premixed combustion
turbulence
progress variable
BERL combustion chamber
title CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTION
title_full CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTION
title_fullStr CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTION
title_full_unstemmed CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTION
title_short CHEMISTRY-TURBULENCE COUPLING IN A MODEL OF INHOMOGENOUSLY PREMIXED COMBUSTION
title_sort chemistry turbulence coupling in a model of inhomogenously premixed combustion
topic premixed combustion
turbulence
progress variable
BERL combustion chamber
url https://journal.mostwiedzy.pl/TASKQuarterly/article/view/2186
work_keys_str_mv AT januszbadur chemistryturbulencecouplinginamodelofinhomogenouslypremixedcombustion
AT michałkarcz chemistryturbulencecouplinginamodelofinhomogenouslypremixedcombustion
AT tomaszwysocki chemistryturbulencecouplinginamodelofinhomogenouslypremixedcombustion