Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.

The behavior of nanofluids is investigated numerically in an inclined lid-driven triangular enclosure to gain insight into convective recirculation and flow processes induced by a nanofluid. The present model is developed to examine the behavior of nanofluids taking into account the solid volume fra...

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Main Authors: Ahsan, Amimul, Rahman, Md. Mahmudur, Billah, M. Masum, Mahbubur Rahman, A. T. M., Kalam, M. A.
Format: Article
Language:English
Published: 2011
Online Access:http://psasir.upm.edu.my/id/eprint/23227/1/Numerical%20investigation%20of%20heat%20transfer%20enhancement%20of%20nanofluids%20in%20an%20inclined%20lid.pdf
http://psasir.upm.edu.my/id/eprint/23227/
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.232272015-10-16T07:34:20Z http://psasir.upm.edu.my/id/eprint/23227/ Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure. Ahsan, Amimul Rahman, Md. Mahmudur Billah, M. Masum Mahbubur Rahman, A. T. M. Kalam, M. A. The behavior of nanofluids is investigated numerically in an inclined lid-driven triangular enclosure to gain insight into convective recirculation and flow processes induced by a nanofluid. The present model is developed to examine the behavior of nanofluids taking into account the solid volume fraction δ. Fluid mechanics and conjugate heat transfer, described in terms of continuity, linear momentum and energy equations, were predicted by using the Galerkin finite element method. Comparisons with previously published work on the basis of special cases are performed and found to be in excellent agreement. Numerical results are obtained for a wide range of parameters such as the Richardson number, and solid volume fraction. Copper–water nanofluids are used with Prandtl number, Pr = 6.2 and solid volume fraction δ is varied as 0%, 4%, 8% and 10%. The streamlines, isotherm plots and the variation of the average Nusselt number at the hot surface as well as average fluid temperature in the enclosure are presented and discussed in detailed. It is observed that solid volume fraction strongly influenced the fluid flow and heat transfer in the enclosure at the three convective regimes. Moreover, the variation of the average Nusselt number and average fluid temperature in the cavity is linear with the solid volume fraction. 2011 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/23227/1/Numerical%20investigation%20of%20heat%20transfer%20enhancement%20of%20nanofluids%20in%20an%20inclined%20lid.pdf Ahsan, Amimul and Rahman, Md. Mahmudur and Billah, M. Masum and Mahbubur Rahman, A. T. M. and Kalam, M. A. (2011) Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure. International Communications in Heat and Mass Transfer, 38 (10). pp. 1360-1367. ISSN 0735-1933 10.1016/j.icheatmasstransfer.2011.08.011
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description The behavior of nanofluids is investigated numerically in an inclined lid-driven triangular enclosure to gain insight into convective recirculation and flow processes induced by a nanofluid. The present model is developed to examine the behavior of nanofluids taking into account the solid volume fraction δ. Fluid mechanics and conjugate heat transfer, described in terms of continuity, linear momentum and energy equations, were predicted by using the Galerkin finite element method. Comparisons with previously published work on the basis of special cases are performed and found to be in excellent agreement. Numerical results are obtained for a wide range of parameters such as the Richardson number, and solid volume fraction. Copper–water nanofluids are used with Prandtl number, Pr = 6.2 and solid volume fraction δ is varied as 0%, 4%, 8% and 10%. The streamlines, isotherm plots and the variation of the average Nusselt number at the hot surface as well as average fluid temperature in the enclosure are presented and discussed in detailed. It is observed that solid volume fraction strongly influenced the fluid flow and heat transfer in the enclosure at the three convective regimes. Moreover, the variation of the average Nusselt number and average fluid temperature in the cavity is linear with the solid volume fraction.
format Article
author Ahsan, Amimul
Rahman, Md. Mahmudur
Billah, M. Masum
Mahbubur Rahman, A. T. M.
Kalam, M. A.
spellingShingle Ahsan, Amimul
Rahman, Md. Mahmudur
Billah, M. Masum
Mahbubur Rahman, A. T. M.
Kalam, M. A.
Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.
author_facet Ahsan, Amimul
Rahman, Md. Mahmudur
Billah, M. Masum
Mahbubur Rahman, A. T. M.
Kalam, M. A.
author_sort Ahsan, Amimul
title Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.
title_short Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.
title_full Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.
title_fullStr Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.
title_full_unstemmed Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.
title_sort numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure.
publishDate 2011
url http://psasir.upm.edu.my/id/eprint/23227/1/Numerical%20investigation%20of%20heat%20transfer%20enhancement%20of%20nanofluids%20in%20an%20inclined%20lid.pdf
http://psasir.upm.edu.my/id/eprint/23227/
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