Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS)
A numerical simulation is conducted to examine the heat transfer and fluid flow characteristics of nanofluids in a triangular grooved microchannel heat sink (TGMCHS). The governing and energy equations are solved using the finite volume method (FVM). The influence of the geometrical parameters such...
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my.uniten.dspace-218412023-05-16T10:45:40Z Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) Kuppusamy N.R. Mohammed H.A. Lim C.W. 55892655600 15837504600 35722335000 A numerical simulation is conducted to examine the heat transfer and fluid flow characteristics of nanofluids in a triangular grooved microchannel heat sink (TGMCHS). The governing and energy equations are solved using the finite volume method (FVM). The influence of the geometrical parameters such as the angle (50-100°), depth (10-25 ?m) and pitch (400-550 ?m) of the groove on the thermal performance of TGMCHS was examined. The effects of different nanoparticle types (Al2O3, CuO, SiO2, ZnO), volume fraction (? = 0.01-? = 0.04), particle diameter (25-80 nm) and base fluid (water, ethylene glycol, engine oil) at different Reynolds numbers are also studied. The thermal performance of TGMCHS had significant increment with the increment of angle and depth of the groove accompanied with an optimum groove pitch. It is found that the TGMCHS thermal performance of using Al2O3-H2O (? = 0.04, d np = 25 nm) is outperformed the simple MCHS using water. © 2014 Elsevier Inc. All rights reserved. Final 2023-05-16T02:45:40Z 2023-05-16T02:45:40Z 2014 Article 10.1016/j.amc.2014.07.087 2-s2.0-84906776185 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84906776185&doi=10.1016%2fj.amc.2014.07.087&partnerID=40&md5=fdfaa591b0973e76c6141a4efd807b56 https://irepository.uniten.edu.my/handle/123456789/21841 246 168 183 Elsevier Inc. Scopus |
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A numerical simulation is conducted to examine the heat transfer and fluid flow characteristics of nanofluids in a triangular grooved microchannel heat sink (TGMCHS). The governing and energy equations are solved using the finite volume method (FVM). The influence of the geometrical parameters such as the angle (50-100°), depth (10-25 ?m) and pitch (400-550 ?m) of the groove on the thermal performance of TGMCHS was examined. The effects of different nanoparticle types (Al2O3, CuO, SiO2, ZnO), volume fraction (? = 0.01-? = 0.04), particle diameter (25-80 nm) and base fluid (water, ethylene glycol, engine oil) at different Reynolds numbers are also studied. The thermal performance of TGMCHS had significant increment with the increment of angle and depth of the groove accompanied with an optimum groove pitch. It is found that the TGMCHS thermal performance of using Al2O3-H2O (? = 0.04, d np = 25 nm) is outperformed the simple MCHS using water. © 2014 Elsevier Inc. All rights reserved. |
| author2 |
55892655600 |
| author_facet |
55892655600 Kuppusamy N.R. Mohammed H.A. Lim C.W. |
| format |
Article |
| author |
Kuppusamy N.R. Mohammed H.A. Lim C.W. |
| spellingShingle |
Kuppusamy N.R. Mohammed H.A. Lim C.W. Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) |
| author_sort |
Kuppusamy N.R. |
| title |
Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) |
| title_short |
Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) |
| title_full |
Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) |
| title_fullStr |
Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) |
| title_full_unstemmed |
Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) |
| title_sort |
thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (tgmchs) |
| publisher |
Elsevier Inc. |
| publishDate |
2023 |
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1806427928603394048 |
| score |
13.214268 |