Numerical models for the phenomenological study of flameless combustion

Numerical models for the phenomenological study of flameless combustion

Flameless combustion is a technique which offers environmental advantages such as lower than 100 ppm NOx and CO emis- sions due to below 200 K temperature gradients. Flameless combustion also supplies higher than 70% energy efficiency. Knowledge of the phenomena in this combustion regime has been fa...

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Main Authors: Bernardo Argemiro Herrera Múnera, Andrés Adolfo Amell Arrieta, Francisco Javier Cadavid Sierra
Format: Article
Language:English
Published: Universidad Nacional de Colombia 2009-05-01
Series:Ingeniería e Investigación
Subjects:
numerical simulation
CFD
flameless combustion
turbulence
radiation
NOx
Online Access:https://revistas.unal.edu.co/index.php/ingeinv/article/view/15164
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spelling doaj-c0c29b35a64b4d9e940845a0ff6f83032020-11-25T00:54:57ZengUniversidad Nacional de ColombiaIngeniería e Investigación0120-56092248-87232009-05-01292707614017Numerical models for the phenomenological study of flameless combustionBernardo Argemiro Herrera MúneraAndrés Adolfo Amell ArrietaFrancisco Javier Cadavid SierraFlameless combustion is a technique which offers environmental advantages such as lower than 100 ppm NOx and CO emis- sions due to below 200 K temperature gradients. Flameless combustion also supplies higher than 70% energy efficiency. Knowledge of the phenomena in this combustion regime has been facilitated by using numerical simulation. This paper reviewed the specialised literature about the most commonly used turbulence, combustion, heat transfer and NOx formation models in modelling flameless combustion with CFD codes. The review concluded that the k-ε standard model is the most used for turbu- lence. Finite rate/eddy dissipation with modified constants and eddy dissipation concept models are suitable for combustion reac- tions, discrete ordinates and weighted sum gray gas (WSGG) models are used for radiation and thermal, prompt and N2O inter- mediate models are used for NOx.https://revistas.unal.edu.co/index.php/ingeinv/article/view/15164numerical simulationCFDflameless combustionturbulenceradiationNOx
collection DOAJ
language English
format Article
sources DOAJ
author Bernardo Argemiro Herrera Múnera
Andrés Adolfo Amell Arrieta
Francisco Javier Cadavid Sierra
spellingShingle Bernardo Argemiro Herrera Múnera
Andrés Adolfo Amell Arrieta
Francisco Javier Cadavid Sierra
Numerical models for the phenomenological study of flameless combustion
Ingeniería e Investigación
numerical simulation
CFD
flameless combustion
turbulence
radiation
NOx
author_facet Bernardo Argemiro Herrera Múnera
Andrés Adolfo Amell Arrieta
Francisco Javier Cadavid Sierra
author_sort Bernardo Argemiro Herrera Múnera
title Numerical models for the phenomenological study of flameless combustion
title_short Numerical models for the phenomenological study of flameless combustion
title_full Numerical models for the phenomenological study of flameless combustion
title_fullStr Numerical models for the phenomenological study of flameless combustion
title_full_unstemmed Numerical models for the phenomenological study of flameless combustion
title_sort numerical models for the phenomenological study of flameless combustion
publisher Universidad Nacional de Colombia
series Ingeniería e Investigación
issn 0120-5609
2248-8723
publishDate 2009-05-01
description Flameless combustion is a technique which offers environmental advantages such as lower than 100 ppm NOx and CO emis- sions due to below 200 K temperature gradients. Flameless combustion also supplies higher than 70% energy efficiency. Knowledge of the phenomena in this combustion regime has been facilitated by using numerical simulation. This paper reviewed the specialised literature about the most commonly used turbulence, combustion, heat transfer and NOx formation models in modelling flameless combustion with CFD codes. The review concluded that the k-ε standard model is the most used for turbu- lence. Finite rate/eddy dissipation with modified constants and eddy dissipation concept models are suitable for combustion reac- tions, discrete ordinates and weighted sum gray gas (WSGG) models are used for radiation and thermal, prompt and N2O inter- mediate models are used for NOx.
topic numerical simulation
CFD
flameless combustion
turbulence
radiation
NOx
url https://revistas.unal.edu.co/index.php/ingeinv/article/view/15164
work_keys_str_mv AT bernardoargemiroherreramunera numericalmodelsforthephenomenologicalstudyofflamelesscombustion
AT andresadolfoamellarrieta numericalmodelsforthephenomenologicalstudyofflamelesscombustion
AT franciscojaviercadavidsierra numericalmodelsforthephenomenologicalstudyofflamelesscombustion
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