基于darcy-brinkman三温模型的非定常三扩散对流

IF 1.4 Q3 ENGINEERING, MECHANICAL
Shushant Shukla, U. Gupta, R. Wanchoo
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引用次数: 0

摘要

利用一项伽辽金残差法的基本可行模态叠加技术,研究了局部热非平衡作用下二元纳米流体层从下加热溶解的理论。纳米粒子的头重分布采用了所谓的达西-布林克曼模型。采用三温度局部热不平衡(LTNE)模型,假设固体基质一个温度场,基底流体一个温度场,悬浮纳米颗粒一个温度场,并考虑布朗扩散和热透扩散的影响。采用数学软件Mathematica(12.0版)进行数值计算。该问题的新颖之处在于,由于达西-布林克曼多孔介质的存在,纳米颗粒和溶质的不稳定影响被稳定所抵消。此外,还观察到两个LTNE参数(即颗粒的Nield参数和修正溶质热容量比)具有不稳定作用,而另外两个参数(即溶质的Nield参数和颗粒的修正热容量比)可以平衡这种不稳定作用。研究发现,纳米流体参数的影响会破坏纳米颗粒的这种头重结构。由于考虑了Darcy- brinkman模型,Darcy数的出现推迟了不稳定的发生。孔隙率和修正后的热扩散率对颗粒和溶质的影响也类似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
UNSTEADY TRIPLE-DIFFUSIVE CONVECTION EMBEDDED WITH DARCY-BRINKMAN THREE-TEMPERATURE MODEL
The theory of binary nanofluid layer heated and soluted from below under the effect of local thermal non-equilibrium has been investigated by applying the technique of superposition of basic feasible modes with one-term Galerkin residual method. The so-called Darcy-Brinkman model for the top-heavy distribution of nanoparticles has been employed. A three-temperature local thermal non-equilibrium (LTNE) model, assuming one-temperature field for the solid matrix, one for the base fluid, and one for the suspended nanosized particles, is employed, incorporating the effects of Brownian and thermophoretic diffusions. Numerical computations are carried out with the software Mathematica (version 12.0). The novelty of the problem lies in the fact that destabilizing influence of nanoparticles and solute is countered with stabilization due to the presence of Darcy-Brinkman porous medium. Further, it has been observed that the two LTNE parameters namely, Nield parameter for particles and modified solute thermal capacity ratio, have destabilizing effects which are balanced by the other two parameters, viz. Nield parameter for solute and modified thermal capacity ratio for particles. The impact of nanofluid parameters is found to destabilize this top-heavy configuration of nanoparticles. Due to the consideration of Darcy-Brinkman model, Darcy number came into existence, which postpones the onset of instability. Similar is the effect of porosity and modified thermal diffusivity ratios for the particles as well as the solute.
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CiteScore
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