MHD Convection of Nanofluids: A Review

被引:67
作者
Chamkha, Ali J. [1 ]
Jena, Sofen Kumar [2 ,3 ]
Mahapatra, Swarup Kumar [4 ]
机构
[1] Prince Mohammad Bin Fahd Univ PMU, Mech Engn Dept, Al Khobar 31952, Saudi Arabia
[2] Univ Louisville, Dept Cardiovasc & Thorac Surg, Sch Med, Cardiovasc Innovat Inst, Louisville, KY 40202 USA
[3] Eastern Acad Sci & Technol, Dept Mech Engn, Bhubaneswar 754001, Orissa, India
[4] Indian Inst Technol Bhubaneswar, Sch Mech Sci, Bhubaneswar 751013, Orissa, India
来源
JOURNAL OF NANOFLUIDS | 2015年 / 4卷 / 03期
关键词
Nanofluids; Thermal Conductivity; Viscosity; Electrical Conductivity; MHD Effects; Convection;
D O I
10.1166/jon.2015.1166
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Many researchers have reported significant enhancement of nanofluids' thermal properties due to the suspension of modest nanoparticle concentrations in low thermal conductivity base fluids. Most of the nanofluids literature concentrates on the development and understanding of nanofluids properties models and their behavior as heating or cooling mechanisms in many industrial, engineering and technological applications. In the past decade, a lot of work has been done on MHD convective flow of nanofluids, but the review of these types of flow and heat transfer situations is absent from the literature till date. This paper reviews some of the available nanofluids physical properties models and focuses on presenting the various research work done on MHD convection of nanofluids in various geometries and applications.
引用
收藏
页码:271 / 292
页数:22
相关论文
共 90 条
[1]   Numerical investigation of natural convection of Al2O3 nanofluid in vertical annuli [J].
Abouali, Omid ;
Falahatpisheh, Ahmad .
HEAT AND MASS TRANSFER, 2009, 46 (01) :15-23
[2]   Effects of variable viscosity and thermal conductivity of Al2O3-water nanofluid on heat transfer enhancement in natural convection [J].
Abu-Nada, Eiyad .
INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW, 2009, 30 (04) :679-690
[3]   Effects of inclination angle on natural convection in enclosures filled with Cu-water nanofluid [J].
Abu-Nada, Eiyad ;
Oztop, Hakan F. .
INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW, 2009, 30 (04) :669-678
[4]   Investigating the diameter of solid particles effects on a laminar nanofluid flow in a curved tube using a two phase approach [J].
Akbarinia, A. ;
Laur, R. .
INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW, 2009, 30 (04) :706-714
[5]   Effects of magnetic field on nanofluid forced convection in a partially heated microchannel [J].
Aminossadati, S. M. ;
Raisi, A. ;
Ghasemi, B. .
INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS, 2011, 46 (10) :1373-1382
[6]   Numerical investigation of nanofluids forced convection in circular tubes [J].
Bianco, V. ;
Chiacchio, F. ;
Manca, O. ;
Nardini, S. .
APPLIED THERMAL ENGINEERING, 2009, 29 (17-18) :3632-3642
[7]   THE VISCOSITY OF CONCENTRATED SUSPENSIONS AND SOLUTIONS [J].
BRINKMAN, HC .
JOURNAL OF CHEMICAL PHYSICS, 1952, 20 (04) :571-571
[8]   Calculation of various physics constants in heterogenous substances I Dielectricity constants and conductivity of mixed bodies from isotropic substances [J].
Bruggeman, DAG .
ANNALEN DER PHYSIK, 1935, 24 (07) :636-664
[9]   VISCOUS DISSIPATION AND MAGNETIC FIELD EFFECTS IN A NON-DARCY POROUS MEDIUM SATURATED WITH A NANOFLUID UNDER CONVECTIVE BOUNDARY CONDITION [J].
Chamkha, A. J. ;
Rashad, A. M. ;
RamReddy, Ch. ;
Murthy, P. V. S. N. .
SPECIAL TOPICS & REVIEWS IN POROUS MEDIA-AN INTERNATIONAL JOURNAL, 2014, 5 (01) :27-39
[10]   MHD FREE CONVECTION FLOW OF A NANOFLUID PAST A VERTICAL PLATE IN THE PRESENCE OF HEAT GENERATION OR ABSORPTION EFFECTS [J].
Chamkha, A. J. ;
Aly, A. M. .
CHEMICAL ENGINEERING COMMUNICATIONS, 2011, 198 (03) :425-441
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