The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics
Simulation of laminar mixed convective flow over a 3-D horizontal microscale backward-Facing step (MBFS) is presented to explore the effect of step height on the flow and heat transfer characteristics. The momentum and energy equations were discretized by means of a finite volume method (FVM). The S...
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my.uniten.dspace-221932023-05-16T10:48:18Z The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics Kherbeet A.S. Mohammed H.A. Munisamy K.M. Salman B.H. 55260597800 15837504600 15035918600 48461700800 Simulation of laminar mixed convective flow over a 3-D horizontal microscale backward-Facing step (MBFS) is presented to explore the effect of step height on the flow and heat transfer characteristics. The momentum and energy equations were discretized by means of a finite volume method (FVM). The SIMPLE algorithm scheme was used to link the pressure and velocity fields in the entire domain. Three values of step height were considered S = 350 ?m, S = 450 ?m and S = 550 ?m. EG-SiO2 nanofluid was considered as the working fluid with 25 nm nanoparticle diameter, 0.04 volume fraction. The results revealed that the Nusselt number and skin friction coefficient increase with the increase of the step height. The Reynolds number and pressure drop were found to decrease with the increase of the step height. © 2013 Elsevier Ltd. All rights reserved. Final 2023-05-16T02:48:18Z 2023-05-16T02:48:18Z 2014 Article 10.1016/j.ijheatmasstransfer.2013.09.050 2-s2.0-84886561336 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84886561336&doi=10.1016%2fj.ijheatmasstransfer.2013.09.050&partnerID=40&md5=a35f3e9e49a3088596bb170059ee6b74 https://irepository.uniten.edu.my/handle/123456789/22193 68 554 566 Scopus |
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Simulation of laminar mixed convective flow over a 3-D horizontal microscale backward-Facing step (MBFS) is presented to explore the effect of step height on the flow and heat transfer characteristics. The momentum and energy equations were discretized by means of a finite volume method (FVM). The SIMPLE algorithm scheme was used to link the pressure and velocity fields in the entire domain. Three values of step height were considered S = 350 ?m, S = 450 ?m and S = 550 ?m. EG-SiO2 nanofluid was considered as the working fluid with 25 nm nanoparticle diameter, 0.04 volume fraction. The results revealed that the Nusselt number and skin friction coefficient increase with the increase of the step height. The Reynolds number and pressure drop were found to decrease with the increase of the step height. © 2013 Elsevier Ltd. All rights reserved. |
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55260597800 |
| author_facet |
55260597800 Kherbeet A.S. Mohammed H.A. Munisamy K.M. Salman B.H. |
| format |
Article |
| author |
Kherbeet A.S. Mohammed H.A. Munisamy K.M. Salman B.H. |
| spellingShingle |
Kherbeet A.S. Mohammed H.A. Munisamy K.M. Salman B.H. The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics |
| author_sort |
Kherbeet A.S. |
| title |
The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics |
| title_short |
The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics |
| title_full |
The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics |
| title_fullStr |
The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics |
| title_full_unstemmed |
The effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics |
| title_sort |
effect of step height of microscale backward-facing step on mixed convection nanofluid flow and heat transfer characteristics |
| publishDate |
2023 |
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1806427390799249408 |
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13.214268 |