磁化三杂化纳米流体以二元化学反应和活化能流过多孔表面

IF 0.4 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
Muhammad Zain ul Abideen, M. Faisal, M. Akbar
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引用次数: 0

摘要

混合纳米流体由于其高传热率而具有工业应用价值,因此对研究人员非常重要。本文讨论了三种不同类型的纳米颗粒在MHD作用下与牛顿流体的混合。详细讨论了与传质和活化能参数有关的最重要的化学反应。目前的研究主要集中在具有强化传热的二维流体在多孔表面上流动。该问题的数学模型以及纳米颗粒材料的经验关系被表示为偏微分方程,然后使用适当的变量将其转换为偏微分方程。将龙格-库塔法和射击法相结合,解决了所创建的耦合微分系统的问题。在多孔板的上下壁纳米颗粒体积分数的变化,以及传热率的测量,计算使用控制物理因素。流动相关变量对速度和温度分布的轴向、径向和温度分量的影响也进行了评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magnetized Tri-hybrid Nanofluids flow with binary Chemical Reaction and activation Energy through the porous Surfaces
Hybrid nanofluids are important to researchers because of their industrial applications due to their high heat transfer rates. Tri hybrid different types of nanoparticles are discussed here with Newtonian fluids under the effect of MHD. The most important chemical reaction associated with mass transfer and activation energy parameters hasbeen discussed in detail. The current research focuses on two-dimensional fluids with heat transfer enhancement flowing over a porous surface. The mathematical modeling of the problem, as well as empirical relations for nanoparticle materials, is expressed as PDEs, which are then translated into ODEs using appropriate variables. The Runge–Kutta and shooting methods are combined to solve the problems of the created coupled differential system. Variations in nanoparticle volume fraction at the lower and upper walls of porous plates, as well as heat transfer rate measurements, are computed using controlling physical factors. The impact of flow-related variables on the axial, radial, and temperature components of velocity and temperature distribution is also assessed.
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来源期刊
Annals of Mathematical Sciences and Applications
Annals of Mathematical Sciences and Applications MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
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