Effects of Inlet and Outlet Ports of Ventilated Square Cavity on Flow and Heat Transfer

H. Laidoudi, M. Helmaoui, Belbachir Azeddine, Adel Ayad, A. Ghenaim
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引用次数: 5

Abstract

This paper deals with numerical simulations of forced convection from a pair of identical cylinders arranged in tandem manner inside a square cavity of single inlet and outlet ports. The gap distance between the cylinders is fixed with half of square length. The main purpose of this study is to see the effect of inlet and outlet port positions on fluid flow and heat transfer rate. The governing equations of continuity, momentum and energy have been solved using finite-volume method in laminar, steady and two dimensional directions. The work has been done in the range of these conditions: Re = 1 to 40, at fixed Pr = 7.01. Three positions of inlet and outlet port have been selected. The mean results of flow patterns and distribution temperature are illustrated under the contours of streamline and isotherm respectively. The drag and lift coefficients of each cylinder is computed and discussed. The average Nusselt number of both cylinders is also presented and discussed. It was found that the inlet and outlet ports have significant effects on heat transfer from the confined cylinders.
通风方腔进、出口对流动和传热的影响
本文研究了在单进、出口方腔内,一对相同圆柱串联排列的强迫对流的数值模拟。气缸之间的间隙距离固定为平方长度的一半。本研究的主要目的是观察进出口位置对流体流动和换热率的影响。用有限体积法分别在层流、稳态和二维方向上求解了连续、动量和能量的控制方程。工作在以下条件下进行:Re = 1至40,固定Pr = 7.01。选择了三个进出水口位置。分别给出了流线和等温线等高线下流型和分布温度的平均结果。计算并讨论了各气缸的阻力系数和升力系数。给出并讨论了两个圆柱体的平均努塞尔数。研究发现,进气口和出气口对密闭气缸的换热有重要影响。
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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