Linear and weakly nonlinear analyses of double-diffusive convection in porous media with chemical reaction using LTNE model

IF 2.8 Q2 THERMODYNAMICS

Heat Transfer Pub Date : 2024-07-16 DOI:10.1002/htj.23121

Chirnam Ramchandraiah, Naikoti Kishan, J. SharathKumar Reddy, Ragoju Ravi

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Abstract

The onset of convection in a horizontal porous layer with chemical reaction and local thermal nonequilibrium is investigated. The nondimensional governing equations have been solved using the normal mode technique, which results in an eigenvalue problem. The analytical expressions for both stationary and oscillatory Rayleigh numbers are obtained. The effect of different parameters has been investigated and presented. The amplitude equation is derived using weakly nonlinear theory. Nusselt number is calculated using an amplitude equation to investigate heat transport. When modeling a fluid-saturated porous medium, previous research on double-diffusive convection has uniformly operated under the assumption of local thermal equilibrium (LTE) between the fluid and solid phases at all points within the medium. This standard practice assumes a minimal temperature gradient between the phases at any given location. However, in practical scenarios involving high-speed flows or significant temperature differentials between the fluid and solid phases, the LTE assumption proves insufficient.

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利用 LTNE 模型对多孔介质中带有化学反应的双扩散对流进行线性和弱非线性分析

研究了具有化学反应和局部热非平衡的水平多孔层中对流的发生。利用法向模态技术求解了非一维控制方程，从而得到了一个特征值问题。得到了静态和振荡雷利数的解析表达式。研究并提出了不同参数的影响。利用弱非线性理论推导出振幅方程。使用振幅方程计算努塞尔特数，以研究热量传输。在对流体饱和多孔介质进行建模时，以往关于双扩散对流的研究都是在介质内所有点的流体和固相之间都达到局部热平衡（LTE）的假设下进行的。这种标准做法假定在任何给定位置，两相之间的温度梯度最小。然而，在涉及高速流动或流体与固相之间存在显著温差的实际情况下，LTE 假设证明是不够的。

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

Heat Transfer THERMODYNAMICS-

CiteScore

6.30

自引率

19.40%

发文量

342