2018
DOI: 10.1002/htj.21382
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Numerical simulation of turbulent natural convection of nanofluid with thermal radiation inside a tall enclosure under the influence of magnetohydrodynamic

Abstract: In the present study, the natural convective heat transfer in the turbulent flow of water/CuO nanofluid with volumetric radiation and magnetic field inside a tall enclosure has been numerically investigated. The thermophysical properties of nanofluid have been considered variable with temperature and the effects of Brownian motion of nanoparticles have been considered. The main objective of this work is an investigation of the effect of using water/CuO nanofluid and presence of magnetic field on turbulent natu… Show more

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Cited by 12 publications
(5 citation statements)
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“…The proposed models can help to reduce the time and resources needed for experiments. Also, the models in the present study can be used in a variety of applications such as heat sinks [85][86][87] , heat pipes 88 , microchannels 89,90 , heat exchangers [91][92][93] , enclosures 94,95 , solar energy 9,96,97 and automotive industry [98][99][100][101] .…”
Section: Combinatorial (Combi) Algorithmmentioning
confidence: 99%
“…The proposed models can help to reduce the time and resources needed for experiments. Also, the models in the present study can be used in a variety of applications such as heat sinks [85][86][87] , heat pipes 88 , microchannels 89,90 , heat exchangers [91][92][93] , enclosures 94,95 , solar energy 9,96,97 and automotive industry [98][99][100][101] .…”
Section: Combinatorial (Combi) Algorithmmentioning
confidence: 99%
“…For the turbulent natural convection MHD, we find in the literature, a numerical investigation on the laminar and turbulent convection of pure water confined in a square enclosure subjected to the influence of a uniform horizontal magnetic field conducted by Sajjadi et al [9]. Another work on the transfer of heat by convection and radiation in a turbulent flow of a nanofluid (CuO-Water) subjected to the influence of a magnetic field, is carried out by Rahmati et al [10]. The results show that heat transfer improves with increasing volume fraction of nanoparticles and decreases with increasing Hartmann number.…”
Section: Introductionmentioning
confidence: 99%
“…Exergy is considered as a measure of the quality of energy and its extent of loss by irreversibility in a thermal system. One of the main applications of the exergy concept is the analysis of thermal systems using exergy balances 26‐28 . Exergy dissipation calculations of a transformation indicate the degree of nonreturn.…”
Section: Introductionmentioning
confidence: 99%
“…One of the main applications of the exergy concept is the analysis of thermal systems using exergy balances. [26][27][28] Exergy dissipation calculations of a transformation indicate the degree of nonreturn. Analyzing the effective parameters of this loss can help to understand the role of various factors and explain how they change the process so as to reduce nonreturn, increase efficiency, and ultimately optimize the process.…”
mentioning
confidence: 99%