受倾斜磁场影响的 Ree-Eyring 纳米流体流动的热非均衡模型分析

Yan Zhang, Muhammad Ramzan, Nazia Shahmir, Saad Alshahrani, Seifedine Kadry, Roobaea Alroobaea
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摘要

本研究旨在探索 Ree-Eyring 纳米流体在渗透介质中受倾斜磁场影响的扩展表面上的行为。粒子、液体和固体三相之间的局部热不平衡由一个三温模型来表示。该问题使用 MATLAB 软件中的 bvp4c 代码进行数值计算。研究结果以表格和图形的形式显示。研究表明,界面传热参数值越高,流体相和固相的努塞尔特数分别越小和越大。速度和浓度分布随着孔隙度系数的增加而减小。然而,流体相的温度分布却呈现出相反的趋势。此外,增加非牛顿流体参数会导致表面阻力系数增加。
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Analysis of thermal non‐equilibrium model on the Ree–Eyring nanofluid flow influenced by an inclined magnetic field
This research seeks to explore the behavior of Ree–Eyring nanofluid over an extended surface influenced by an inclined magnetic field within a permeable medium. The local thermal non‐equilibrium between the particle, liquid, and solid phases is represented by a three‐temperature model. The problem is addressed numerically using bvp4c code in MATLAB software. The findings are displayed in the format of tables and graphs. The study shows that higher values of the interface heat transfer parameter led to a decrease and increase in the fluid phase and solid phase Nusselt number, respectively. The velocity and concentration distributions decrease with increasing porosity coefficient. Nevertheless, the fluid phase temperature distribution shows an opposing trend. Furthermore, increasing the non‐Newtonian fluid parameter leads to a raise in the surface drag coefficient.
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