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Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source

The current study investigates the 2D entropy production and the mixed convection inside a wavy-walled chamber containing a rotating cylinder and a heat source. The heat source of finite-length h is placed in the middle of the left vertical surface in which its temperature is fixed at T. The tempera...

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Main Authors: Alsabery, Ammar I., Tayebi, Tahar, Roslan, Rozaini, Chamkha, Ali J., Hashim, Ishak
Format: Article
Language:English
Published: MDPI 2020
Subjects:
T Technology (General)
TJ255-265 Heat engines
Online Access:http://eprints.uthm.edu.my/6309/1/AJ%202020%20%28269%29.pdf
http://eprints.uthm.edu.my/6309/
https://doi.org/10.3390/e22060606
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spelling my.uthm.eprints.63092022-01-30T02:02:49Z http://eprints.uthm.edu.my/6309/ Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source Alsabery, Ammar I. Tayebi, Tahar Roslan, Rozaini Chamkha, Ali J. Hashim, Ishak T Technology (General) TJ255-265 Heat engines The current study investigates the 2D entropy production and the mixed convection inside a wavy-walled chamber containing a rotating cylinder and a heat source. The heat source of finite-length h is placed in the middle of the left vertical surface in which its temperature is fixed at T. The temperature of the right vertical surface, however, is maintained at lower temperature Tc. The remaining parts of the left surface and the wavy horizontal surfaces are perfectly insulated. The governing equations and the complex boundary conditions are non-dimensionalized and solved using the weighted residual finite element method, in particular, the Galerkin method. Various active parameters are considered, i.e., Rayleigh number Ra = 103 and 105, number of oscillations: 1 ≤ N ≤ 4, angular rotational velocity: -1000 ≤ Ω ≤ 1000, and heat source length: 0.2 ≤ H ≤ 0.8. A mesh independence test is carried out and the result is validated against the benchmark solution. Results such as stream function, isotherms and entropy lines are plotted and we found that fluid flow can be controlled by manipulating the rotating velocity of the circular cylinder. For all the considered oscillation numbers, the Bejan number is the highest for the case involving a nearly stationary inner cylinder. MDPI 2020 Article PeerReviewed text en http://eprints.uthm.edu.my/6309/1/AJ%202020%20%28269%29.pdf Alsabery, Ammar I. and Tayebi, Tahar and Roslan, Rozaini and Chamkha, Ali J. and Hashim, Ishak (2020) Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source. Entropy, 22 (6). pp. 1-20. ISSN 1099-4300 https://doi.org/10.3390/e22060606
institution Universiti Tun Hussein Onn Malaysia
building UTHM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tun Hussein Onn Malaysia
content_source UTHM Institutional Repository
url_provider http://eprints.uthm.edu.my/
language English
topic T Technology (General)
TJ255-265 Heat engines
spellingShingle T Technology (General)
TJ255-265 Heat engines
Alsabery, Ammar I.
Tayebi, Tahar
Roslan, Rozaini
Chamkha, Ali J.
Hashim, Ishak
Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source
description The current study investigates the 2D entropy production and the mixed convection inside a wavy-walled chamber containing a rotating cylinder and a heat source. The heat source of finite-length h is placed in the middle of the left vertical surface in which its temperature is fixed at T. The temperature of the right vertical surface, however, is maintained at lower temperature Tc. The remaining parts of the left surface and the wavy horizontal surfaces are perfectly insulated. The governing equations and the complex boundary conditions are non-dimensionalized and solved using the weighted residual finite element method, in particular, the Galerkin method. Various active parameters are considered, i.e., Rayleigh number Ra = 103 and 105, number of oscillations: 1 ≤ N ≤ 4, angular rotational velocity: -1000 ≤ Ω ≤ 1000, and heat source length: 0.2 ≤ H ≤ 0.8. A mesh independence test is carried out and the result is validated against the benchmark solution. Results such as stream function, isotherms and entropy lines are plotted and we found that fluid flow can be controlled by manipulating the rotating velocity of the circular cylinder. For all the considered oscillation numbers, the Bejan number is the highest for the case involving a nearly stationary inner cylinder.
format Article
author Alsabery, Ammar I.
Tayebi, Tahar
Roslan, Rozaini
Chamkha, Ali J.
Hashim, Ishak
author_facet Alsabery, Ammar I.
Tayebi, Tahar
Roslan, Rozaini
Chamkha, Ali J.
Hashim, Ishak
author_sort Alsabery, Ammar I.
title Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source
title_short Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source
title_full Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source
title_fullStr Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source
title_full_unstemmed Entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source
title_sort entropy generation and mixed convection flow inside a wavy-walled enclosure containing a rotating solid cylinder and a heat source
publisher MDPI
publishDate 2020
url http://eprints.uthm.edu.my/6309/1/AJ%202020%20%28269%29.pdf
http://eprints.uthm.edu.my/6309/
https://doi.org/10.3390/e22060606
_version_ 1738581475972874240
score 13.2014675

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