Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape

Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape

In the current paper, numerical simulations of the combustion of turbulent CH4-H2 are presented employing the standard k-epsilon and the RNG k-epsilon for turbulence closure. The Fr-ED concept is carried out to account for chemistry/ turbulence interaction. The hydrogen content is varied in the fuel...

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Bibliographic Details
Main Authors: A. Bouziane, A. Alami, M. Zaitri, B. Bouchame, M. Bouchetara
Format: Article
Language:English
Published: D. G. Pylarinos 2021-04-01
Series:Engineering, Technology & Applied Science Research
Subjects:
RNG k-epsilon
swirl
hydrogen
CFD
CH4
Online Access:https://etasr.com/index.php/ETASR/article/view/4034
id doaj-220af55e7a7b4f0f8127e268fde738b2
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spelling doaj-220af55e7a7b4f0f8127e268fde738b22021-04-12T14:12:19ZengD. G. PylarinosEngineering, Technology & Applied Science Research2241-44871792-80362021-04-0111210.48084/etasr.4034Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame ShapeA. Bouziane0A. Alami1M. Zaitri2B. Bouchame3M. Bouchetara4Faculty of Technology, University of Djillali Liabes, AlgeriaRenewable Energies Department, Saad Dahlab Blida University 1, AlgeriaLaboratory of Gas Combustion and Environment, University of Sciences and Technology of Oran, AlgeriaLaboratory of Mechanics of Structures and Solids (LMSS), Faculty of Technology University of Djillali Liabes, AlgeriaLaboratory of Gas Combustion and Environment, University of Sciences and Technology of Oran, AlgeriaIn the current paper, numerical simulations of the combustion of turbulent CH4-H2 are presented employing the standard k-epsilon and the RNG k-epsilon for turbulence closure. The Fr-ED concept is carried out to account for chemistry/ turbulence interaction. The hydrogen content is varied in the fuel stream from 0% to 100%. The numerical solutions are validated by comparison with corresponding experimental data from the Combustion Laboratory of the University of Milan. The flow is directed radially outward. This method of fuel injection has been already been explored experimentally. The results show that the structure of the flame is described reasonably and both standard k-ɛ and RNG k- ɛ models can predict the flame shape. The general aspect of the temperature profiles is well predicted. The temperature profiles are indicating a different trend between CH4 and CH4/H2 fuel mixtures. https://etasr.com/index.php/ETASR/article/view/4034RNG k-epsilonswirlhydrogenCFDCH4
collection DOAJ
language English
format Article
sources DOAJ
author A. Bouziane
A. Alami
M. Zaitri
B. Bouchame
M. Bouchetara
spellingShingle A. Bouziane
A. Alami
M. Zaitri
B. Bouchame
M. Bouchetara
Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape
Engineering, Technology & Applied Science Research
RNG k-epsilon
swirl
hydrogen
CFD
CH4
author_facet A. Bouziane
A. Alami
M. Zaitri
B. Bouchame
M. Bouchetara
author_sort A. Bouziane
title Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape
title_short Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape
title_full Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape
title_fullStr Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape
title_full_unstemmed Investigation of Swirl Stabilized CH4 Air Flame with Varied Hydrogen Content by using Computational Fluid Dynamics (CFD) to Study the Temperature Field and Flame Shape
title_sort investigation of swirl stabilized ch4 air flame with varied hydrogen content by using computational fluid dynamics (cfd) to study the temperature field and flame shape
publisher D. G. Pylarinos
series Engineering, Technology & Applied Science Research
issn 2241-4487
1792-8036
publishDate 2021-04-01
description In the current paper, numerical simulations of the combustion of turbulent CH4-H2 are presented employing the standard k-epsilon and the RNG k-epsilon for turbulence closure. The Fr-ED concept is carried out to account for chemistry/ turbulence interaction. The hydrogen content is varied in the fuel stream from 0% to 100%. The numerical solutions are validated by comparison with corresponding experimental data from the Combustion Laboratory of the University of Milan. The flow is directed radially outward. This method of fuel injection has been already been explored experimentally. The results show that the structure of the flame is described reasonably and both standard k-ɛ and RNG k- ɛ models can predict the flame shape. The general aspect of the temperature profiles is well predicted. The temperature profiles are indicating a different trend between CH4 and CH4/H2 fuel mixtures.
topic RNG k-epsilon
swirl
hydrogen
CFD
CH4
url https://etasr.com/index.php/ETASR/article/view/4034
work_keys_str_mv AT abouziane investigationofswirlstabilizedch4airflamewithvariedhydrogencontentbyusingcomputationalfluiddynamicscfdtostudythetemperaturefieldandflameshape
AT aalami investigationofswirlstabilizedch4airflamewithvariedhydrogencontentbyusingcomputationalfluiddynamicscfdtostudythetemperaturefieldandflameshape
AT mzaitri investigationofswirlstabilizedch4airflamewithvariedhydrogencontentbyusingcomputationalfluiddynamicscfdtostudythetemperaturefieldandflameshape
AT bbouchame investigationofswirlstabilizedch4airflamewithvariedhydrogencontentbyusingcomputationalfluiddynamicscfdtostudythetemperaturefieldandflameshape
AT mbouchetara investigationofswirlstabilizedch4airflamewithvariedhydrogencontentbyusingcomputationalfluiddynamicscfdtostudythetemperaturefieldandflameshape
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