Forced convection heat transfer of nanofluids from a horizontal plate with convective boundary condition and a line heat source embedded in porous media

被引:0
作者
Iskander Tlili
Masoud Rabeti
Mostafa Safdari Shadloo
Zahra Abdelmalek
机构
[1] Ton Duc Thang University,Department for Management of Science and Technology Development
[2] Ton Duc Thang University,Faculty of Applied Sciences
[3] Sousangerd Branch,Department of Mechanical Engineering
[4] Islamic Azad University,CORIA Lab/CNRS
[5] University and INSA of Rouen,Institute of Research and Development
[6] Normandie University,Faculty of Medicine
[7] Duy Tan University,undefined
[8] Duy Tan University,undefined
来源
Journal of Thermal Analysis and Calorimetry | 2020年 / 141卷
关键词
Darcy porous medium; Nanofluids; Convective boundary condition; Line heat source;
D O I
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中图分类号
学科分类号
摘要
In this study, forced convective flow of nanofluids over a horizontal flat plate with convective boundary condition and a heated line source which are immersed in a Darcy porous medium is analyzed. For both cases, by taking suitable similarity variables, the governing partial differential equations are transformed into ordinary differential equations (ODEs) and exact analytical solutions are obtained for these ODEs. For both cases, the impact of nanoparticles volume fractions, the porosity of the porous medium, the thermal conductivity of the porous medium and the types of nanoparticles on the heat transfer of nanofluids are investigated, while the effect of a convective heating parameter (Nc) on the heat transfer of nanofluids is solely conducted for horizontal plate.
引用
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页码:2081 / 2094
页数:13
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  • [1] Gholamalipour P(2019)Eccentricity effects of heat source inside a porous annulus on the natural convection heat transfer and entropy generation of Cu-water nanofluid Int Commun Heat Mass Transf 109 104367-15
  • [2] Siavashi M(2019)Effect of Reynolds asymmetry and use of porous media in the counterflow double-pipe heat exchanger for passive heat transfer enhancement J Therm Anal Calorim 1 1-1098
  • [3] Doranehgard MH(2019)Numerical analysis on forced convection enhancement in an annulus using porous ribs and nanoparticle addition to base fluid J Central South Univ 26 1089-287
  • [4] Joibary SMM(2019)Numerical analysis of mixed convection of two-phase non-Newtonian nanofluid flow inside a partially porous square enclosure with a rotating cylinder J Therm Anal Calorim 137 267-583
  • [5] Siavashi M(2019)Parallel processing of numerical simulation of two-phase flow in fractured reservoirs considering the effect of natural flow barriers using the streamline simulation method Int J Heat Mass Transf 131 574-23
  • [6] Siavashi M(2008)Radiation and variable viscosity effect in forced convection from a horizontal plate embedded in a porous medium Studia Universitatis Babes-Bolyai Mathematica 53 13-961
  • [7] Bahrami HRT(2019)Application of nanofluid and optimization of pore size arrangement of heterogeneous porous media to enhance mixed convection inside a two-sided lid-driven cavity J Therm Anal Calorim 135 947-1155
  • [8] Aminian E(2006)Mixed convection plume about a line heat source in micropolar fluid Int Commun Heat Mass Transf 33 1147-178
  • [9] Saffari H(1988)Darcian mixed convection plumes along vertical adiabatic surfaces in a saturated porous medium Wärme-und Stoffübertragung 22 173-2329
  • [10] Siavashi M(2020)Heat transfer enhancement in a flat plate solar collector with different flow path shapes using nanofluid Renewable Energy 146 2316-4763
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