折板通风腔内混合对流的数值研究

Yawovi Nougbléga, Koffi Sagna, K. Atchonouglo
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引用次数: 3

摘要

本文采用数值方法研究了由均匀加热的左垂直壁面产生恒定热流的折流板通风腔内的混合对流。外部气流通过右侧垂直壁上的入口开口进入空腔,并从对面壁上的出口开口出口。二维数学模型包括一个由连续性、线性动量和能量五个控制偏微分方程组成的系统,用有限差分法离散,用Thomas算法和Gauss Seidel方法求解。对雷诺数为10≤Re≤200,瑞利数为104≤Ra≤106的空冷流场和热场进行了数值模拟研究。在三种结构中,利用两个加热挡板的三个不同位置,从流线、局部努塞尔数、速度和等温线等方面分析了传热的影响。结果表明,沿水平壁面加温挡板的位置可以在加温挡板通风腔内同时形成隔离区和加温区。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical Study of Mixed Convection in Baffled Vented Cavity
Mixed convection is numerically studied in a baffled vented cavity with constant heat flux from a uniformly heated left vertical wall. An external airflow enters the cavity through the inlet opening in the right vertical wall and exits from the outlet opening in the opposite wall. The two-dimensional mathematical model includes a system of five governing partial differential equations of continuity, linear momentum and energy, discretized by the finite difference method, and solved by the Thomas algorithm and the Gauss Seidel Method. Flow and thermal fields are investigated by numerical simulations of air cooling with a Reynolds number in the range 10 ≤ Re ≤ 200, and Rayleigh number: 104 ≤ Ra ≤ 106. Three different locations of the two heated baffles are used in the configurations to analyze the effect of heat transfer in terms of streamlines, local Nusselt number, velocity and isotherms within the three configurations. The results show that the locations of the heated baffles along the horizontal walls enable to create simultaneously the isolated zone and the heated zone in the baffled vented cavity.
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