Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating

Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating

This article reports a numerical analysis of combined natural convection and non-gray gas radiation within a cylindrical enclosure, isothermally heated and cooled on various arc lengths of the sidewall. Three active zone locations are studied in this article. The first heating section extends quarte...

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Main Authors: Khouloud Jarray, Akram Mazgar, Fayçal Ben Nejma
Format: Article
Language:English
Published: SAGE Publishing 2019-12-01
Series:Advances in Mechanical Engineering
Online Access:https://doi.org/10.1177/1687814019895417
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spelling doaj-c74d965c4f614da9b97a5d760567709c2020-11-25T03:20:59ZengSAGE PublishingAdvances in Mechanical Engineering1687-81402019-12-011110.1177/1687814019895417Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heatingKhouloud Jarray0Akram Mazgar1Fayçal Ben Nejma2Ionized and Reactive Media Studies Research Unit, Preparatory Institute of Engineering Studies of Monastir, Monastir University, Monastir, TunisiaInstitute of Applied Sciences and Technology of Sousse, University of Sousse, Sousse, TunisiaIonized and Reactive Media Studies Research Unit, Preparatory Institute of Engineering Studies of Monastir, Monastir University, Monastir, TunisiaThis article reports a numerical analysis of combined natural convection and non-gray gas radiation within a cylindrical enclosure, isothermally heated and cooled on various arc lengths of the sidewall. Three active zone locations are studied in this article. The first heating section extends quarter the perimeter of the cavity, the second spreads across one-half of the cylinder, and the third one is made of three-quarters of the sidewall. The participating media are considered as emissive, absorbent, and non-scattering. The radiative transfer equation is resolved using the Ray-Tracing method associated to the Statistical Narrow Band–correlated K model. The effect of heater size and its location on heat transfer, fluid flow, and entropy generation are presented and discussed in this work. The results show that the optimum heater size is obtained for three-quarters heated enclosure. It was also found that choosing a heat source centered at the top of the enclosure provides the best heat transfer performance.https://doi.org/10.1177/1687814019895417
collection DOAJ
language English
format Article
sources DOAJ
author Khouloud Jarray
Akram Mazgar
Fayçal Ben Nejma
spellingShingle Khouloud Jarray
Akram Mazgar
Fayçal Ben Nejma
Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating
Advances in Mechanical Engineering
author_facet Khouloud Jarray
Akram Mazgar
Fayçal Ben Nejma
author_sort Khouloud Jarray
title Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating
title_short Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating
title_full Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating
title_fullStr Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating
title_full_unstemmed Effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating
title_sort effect of combined natural convection and non-gray gas radiation on entropy generation in a circular enclosure with partial heating
publisher SAGE Publishing
series Advances in Mechanical Engineering
issn 1687-8140
publishDate 2019-12-01
description This article reports a numerical analysis of combined natural convection and non-gray gas radiation within a cylindrical enclosure, isothermally heated and cooled on various arc lengths of the sidewall. Three active zone locations are studied in this article. The first heating section extends quarter the perimeter of the cavity, the second spreads across one-half of the cylinder, and the third one is made of three-quarters of the sidewall. The participating media are considered as emissive, absorbent, and non-scattering. The radiative transfer equation is resolved using the Ray-Tracing method associated to the Statistical Narrow Band–correlated K model. The effect of heater size and its location on heat transfer, fluid flow, and entropy generation are presented and discussed in this work. The results show that the optimum heater size is obtained for three-quarters heated enclosure. It was also found that choosing a heat source centered at the top of the enclosure provides the best heat transfer performance.
url https://doi.org/10.1177/1687814019895417
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AT akrammazgar effectofcombinednaturalconvectionandnongraygasradiationonentropygenerationinacircularenclosurewithpartialheating
AT faycalbennejma effectofcombinednaturalconvectionandnongraygasradiationonentropygenerationinacircularenclosurewithpartialheating
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