Numerical Simulation of Mixed Convection Flow Over Heat Source Modules Mounted On A Horizontal Plate

IF 1.3 Q3 THERMODYNAMICS
K. Venkatasubbaiah, A. Anand
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引用次数: 1

Abstract

Mixed convection flow over heat source modules mounted on a horizontal plate has been studied numerically. The present analysis is valid when the buoyancy force effects are small compared to forced convection effects. The mixed convection flow problem is formulated by two-dimensional incompressible flow with the buoyancy term represented by the Boussinesq approximation. The governing equations are solved in the stream function and vorticity formulation using high accuracy finite difference schemes. Results are reported for single and two heat source modules mounted on a horizontal plate with and without thickness. The effects of induced velocity, heat input, thickness, and location of heat source modules on heat transfer rate and thermal field in the vicinity of heat sources are reported. Results have shown that there is a decrease of maximum temperature on heat source modules with increase in free-stream velocity of the fluid. Results show that the change of location and thickness of heat source modules has a significant effect on thermal flow field characteristics. The maximum temperature and average Nusselt number on heat source modules are reported at different parameters. The reported results agreed well with experimental results available in the literature.
安装在水平板上的热源模块上混合对流流动的数值模拟
本文对安装在水平板上的热源模块上的混合对流流动进行了数值研究。与强制对流效应相比,浮力效应较小时,本文的分析是有效的。混合对流问题是用二维不可压缩流动来表示的,浮力项用Boussinesq近似表示。控制方程采用高精度有限差分格式在流函数和涡量公式中求解。结果报告了单个和两个热源模块安装在水平板有厚度和无厚度。本文报道了热源模块的诱导速度、热输入、厚度和位置对热源附近传热速率和热场的影响。结果表明,随着流体自由流动速度的增加,热源模块的最高温度降低。结果表明,热源模块位置和厚度的变化对热流场特性有显著影响。报道了不同参数下热源模块的最高温度和平均努塞尔数。报告的结果与文献中的实验结果吻合得很好。
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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来源期刊
CiteScore
2.70
自引率
6.70%
发文量
36
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