Investigations of Couette Flow Unsteady Radiative Convective Heat Transfer in a Vertical Channel Using the Generalized Method of Lines (MOL)

Q3 Chemical Engineering

International Journal of Applied Mechanics and Engineering Pub Date : 2022-08-29 DOI:10.2478/ijame-2022-0044

A. Sowayan

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引用次数: 1

Abstract

Abstract This study describes a very efficient and fast numerical solution method for the non-steady free convection flow with radiation of a viscous fluid between two infinite vertical parallel walls. The method of lines (MOL) is used together with the Runge-Kutta ODE Matlab solver to investigate this problem numerically. The presence of radiation adds more stiffness and numerical complexity to the problem. A complete derivation in dimensionless form of the governing equations for momentum and energy is also included. A constant heat flux condition is applied at the left wall and a transient numerical solution is obtained for different values of the radiation parameter (R). The results are presented for dimensionless velocity, dimensionless temperature and Nusselt number for different values of the Prandtl number (Pr), Grashof number (Gr), and the radiation parameter (R). As expected, the results show that the convection heat transfer is high when the Nusselt number is high and the radiation parameter is low. It is also shown that the solution method used is simple and efficient and could be easily adopted to solve more complex problems.

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用广义线法研究垂直通道内Couette流非定常辐射对流换热

摘要本文描述了粘性流体在两个无限垂直平行壁面间非定常辐射自由对流流动的一种高效快速的数值求解方法。采用线法(MOL)结合Runge-Kutta ODE Matlab求解器对该问题进行了数值研究。辐射的存在增加了问题的刚度和数值复杂性。并给出了动量和能量控制方程的无量纲形式的完整推导。在左壁面施加恒定热流条件，得到了不同辐射参数(R)值下的瞬态数值解。得到了不同普朗特数(Pr)、格拉什夫数(Gr)和辐射参数(R)值下的无量纲速度、无量纲温度和努塞尔数的结果。结果表明:当努塞尔数大、辐射参数小时，对流换热量大;结果表明，所采用的求解方法简单有效，可用于求解更复杂的问题。

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

International Journal of Applied Mechanics and Engineering Engineering-Civil and Structural Engineering

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

35 weeks

期刊介绍： INTERNATIONAL JOURNAL OF APPLIED MECHANICS AND ENGINEERING is an archival journal which aims to publish high quality original papers. These should encompass the best fundamental and applied science with an emphasis on their application to the highest engineering practice. The scope includes all aspects of science and engineering which have relevance to: biomechanics, elasticity, plasticity, vibrations, mechanics of structures, mechatronics, plates & shells, magnetohydrodynamics, rheology, thermodynamics, tribology, fluid dynamics.