MHD double-diffusive mixed convection and entropy generation of nanofluid in a trapezoidal cavity

被引:73
|
作者
Mondal, Priyajit [1 ]
Mahapatra, T. R. [1 ]
机构
[1] Visva Bharati A Cent Univ, Dept Math, Santini Ketan 731235, W Bengal, India
关键词
Mixed convection flow; Nanofluid; Trapezoidal enclosure; Discrete heat and mass source; Magnetic field; Heat transfer; Mass transfer; Aspect ratio; Entropy generation; NATURAL-CONVECTION; HEAT-TRANSFER; MAGNETIC-FIELD; SQUARE CAVITY; FILLED SQUARE; FLUID-FLOW; ENCLOSURE; VISUALIZATION; VISCOSITY; AIR;
D O I
10.1016/j.ijmecsci.2021.106665
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
Double diffusive, Magnetohydrodynamics (MHD), mixed convection flow of Al2O3-water nanofluid inside a trape-zoidal enclosure with discrete heat and mass source at the bottom wall of the cavity has been discussed numerically. Together with these entropy generations due to fluid friction, heat transfer, mass transfer and magnetic field are discussed. The upper wall of the cavity is considered to move with a fixed velocity U-0 towards positive X-direction. Different inclination angles and different aspect ratios are considered in the present study. Second and fourth order finite difference approximations are used to solve the governing equations by using biconjugate gradient stabilized method (BiCGStab). It is observed that, entropy generation mostly depends on heat transfer and lower values of Richardson number (Ri = 0.01) reduces the entropy generation. The highest quantitative value of vertical bar S-theta vertical bar(max) is 21,664 for Ri = 100, Re = 100 and phi = 45 degrees and lowest quantative value of vertical bar S-theta vertical bar(max) 5,824 for Ri = 0.01, Re = 1000 and phi = 60 degrees throughout the present study. Also the highest quantitative values of average Nusselt and Sherwood numbers are 0.2597 and 0.4208 for Ri = 10, Re = 100 and phi = 45 degrees. The main objective of our present study is to minimize entropy generations due to combined effects of fluid flow, heat transfer, mass transfer and the effect of magnetic field so that the loss of energy can be reduced. This study observed that mixed convection flow, low magnetic field and low aspect ratio cavity of rectangular shape is always preferable to reduce total entropy generation and the middle part of the lower wall of the cavity is highly acceptable for heat and mass source for sprinkle of heat and mass throughout the whole of the cavity.
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页数:11
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