Effects of viscous dissipation, temperature dependent thermal conductivity, and local thermal non-equilibrium on the heat transfer in a porous channel to Casson fluid

IF 1.6 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Rajvinder Kaur, Sapna Sharma, Avinash Chandra
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引用次数: 0

Abstract

The current paper deals with viscous dissipation effects in a permeable (or porous) channel filled with non-Newtonian Casson fluid by considering the local thermal non-equilibrium (LTNE) model. The dependency of the effective thermal conductivities of the solid and fluid phases on the respective temperatures has been studied along with the spatially varying Biot number. The Brinkman number Br , Casson fluid parameter γ , thermal conductivity variation parameter δ , porosity ϵ , Darcy number Da , and the ratio of fluid and solid phase thermal conductivities k r = k f k s are the main governing parameters. The Darcy–Brinkman model is employed to govern the fluid flow in permeable media and the velocity profile has been obtained analytically. Moreover, the energy equations for both phases along with suitable boundary conditions are derived and solved with the fourth order boundary value solver. The findings of the current study depict that the Nusselt number increases with the increment in Casson fluid parameter and decreases with the increment in Brinkman number and thermal conductivity variation parameter. Overall, the heat transmission between the solid and fluid phases increases with the decrement in Brinkman number and thermal conductivity variation parameter. On the other hand, the heat transmission between both the phases magnifies by increasing the value of Casson fluid parameter.

粘性耗散、随温度变化的热导率和局部热不平衡对多孔通道中卡松流体传热的影响
本文通过考虑局部热非平衡态(LTNE)模型,研究了充满非牛顿卡松流体的渗透(或多孔)通道中的粘性耗散效应。研究了固相和流体相的有效热导率与各自温度的关系,以及空间变化的比奥特数。布林克曼数、卡森流体参数、热传导率变化参数、孔隙度达西数以及流体和固相热传导率之比是主要的控制参数。采用达西-布林克曼模型来控制渗透介质中的流体流动,并通过分析获得速度曲线。此外,还推导出了两相的能量方程以及合适的边界条件,并使用四阶边界值求解器进行了求解。目前的研究结果表明,随着卡松流体参数的增大,努塞尔特数也随之增大,而随着布林克曼数和热导率变化参数的增大,努塞尔特数则随之减小。总体而言,固相和流体之间的热传递随着布林克曼数和导热率变化参数的减小而增加。另一方面,随着卡松流体参数值的增加,固液两相之间的热传递也会增加。
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
Canadian Journal of Chemical Engineering
Canadian Journal of Chemical Engineering 工程技术-工程:化工
CiteScore
3.60
自引率
14.30%
发文量
448
审稿时长
3.2 months
期刊介绍: The Canadian Journal of Chemical Engineering (CJChE) publishes original research articles, new theoretical interpretation or experimental findings and critical reviews in the science or industrial practice of chemical and biochemical processes. Preference is given to papers having a clearly indicated scope and applicability in any of the following areas: Fluid mechanics, heat and mass transfer, multiphase flows, separations processes, thermodynamics, process systems engineering, reactors and reaction kinetics, catalysis, interfacial phenomena, electrochemical phenomena, bioengineering, minerals processing and natural products and environmental and energy engineering. Papers that merely describe or present a conventional or routine analysis of existing processes will not be considered.
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