MHD mixed convection in a partitioned rectangular enclosure

Q3 Engineering
M. Rahman, M. M. Ali, M. R. Kazi, M. Hakim
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引用次数: 0

Abstract

A numerical study is carried out to explore the influence of external magnetic field on mixed convective heat transfer in a partitioned rectangular cavity with on side moving wall. The vertical walls are isothermally heated while the horizontal walls are thermally insulated. The left vertical wall is moving in + y direction and remaining walls are maintained no-slip condition. A magnetic field of uniform strength is imposed transverse to the temperature gradient. The governing equations are solved utilizing the finite element method for several physical parameters including Richardson number, Hartmann number and Prandtl number. The numerical results are presented graphically using streamlines, isotherms, local and average Nusselt numbers. It is observed that the flow filed is affected significantly for moving wall and the variation in Hartmann and Richardson numbers. The velocity field is found more effective in natural convection regime than forced convection. The results demonstrated that maximum amount of heat transfer is obtained in natural convection domination and higher values of Prandtl number. The enhancement of heat transfer rate is found 14.25% more at higher Prandtl number (Pr =2.56) than lower (Pr =0.71) and it reduction is found 3.03% more at Ha = 50 compared to Ha = 0.
MHD混合对流在一个分区的矩形外壳
通过数值研究,探讨了外磁场对带侧移壁的矩形分区空腔内混合对流换热的影响。垂直壁是等温加热的,而水平壁是隔热的。左侧垂直墙沿+y方向移动,其余墙保持无滑动状态。横向于温度梯度施加均匀强度的磁场。利用有限元法求解了几个物理参数的控制方程,包括Richardson数、Hartmann数和Prandtl数。数值结果采用流线、等温线、局部和平均努塞尔数以图形形式呈现。观察到,移动壁和Hartmann和Richardson数的变化对流场有显著影响。速度场在自然对流状态下比强迫对流更有效。结果表明,在自然对流控制和普朗特数较高的情况下,可以获得最大的传热量。发现在较高的普朗特数(Pr=2.56)下传热率的提高比较低的普朗特数(Pr=0.71)多14.25%,并且发现在Ha=50时传热率的降低比Ha=0多3.03%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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