Thermodynamic and buoyancy force effects of Cu and TiO2 nanoparticles in engine oil flow over an inclined permeable surface

IF 3.7 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Journal of King Saud University - Science Pub Date : 2024-09-12 DOI:10.1016/j.jksus.2024.103434
Raghunath Kodi , Ramachandra Reddy Vaddemani , Haribabu Kommaddi , Samad Noeiaghdam , Unai Fernandez-Gamiz
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Abstract

This study investigates the heat and mass transmission behavior in an unsteady magnetohydrodynamic (MHD) movement of nanofluids over an inclined permeable surface, with applications in enhancing thermal management systems such as automotive cooling and industrial heat exchangers. The model specifically examines the consequence of thermal diffusion (Soret effect) and buoyant forces on Cu and TiO2 nanoparticles dispersed in engine oil. The governing equations, comprising velocity, energy, and concentration equations, are recast into nonlinear ODEs manipulating similitude adaptations. These ODEs are then solved through a standard perturbation method under appropriate boundary conditions. The key findings indicate that enhancing thermal radiation diminishes the velocity and temperature profiles, while raising chemical reaction rates decrease concentration levels. Additionally, higher Soret parameter values are associated with increased velocity and concentration. Quantitatively, TiO2-engine oil nanofluids exhibit a 15% higher velocity compared to Cu-engine oil nanofluids, highlighting the superior performance of TiO2 in dynamic thermal systems. Furthermore, numerical outcomes for the local skin contention, Nusselt numeral, and Sherwood digit are tabulated to illustrate the consequence of material properties. The outcomes of this study are particularly beneficial in optimizing the design of heat exchangers, improving fuel efficiency in automotive engines, and enhancing industrial processes where precise thermal control is critical.

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铜和二氧化钛纳米粒子在发动机油流过倾斜渗透表面时的热力学和浮力效应
本研究探讨了纳米流体在倾斜可渗透表面上的非稳态磁流体力学(MHD)运动中的热量和质量传输行为,并将其应用于增强热管理系统,如汽车冷却和工业热交换器。该模型专门研究了热扩散(索雷特效应)和浮力对分散在发动机油中的铜和二氧化钛纳米粒子的影响。由速度、能量和浓度方程组成的控制方程通过模拟适应性处理被重构为非线性 ODE。然后在适当的边界条件下,通过标准扰动法求解这些 ODE。主要研究结果表明,热辐射增强会降低速度和温度曲线,而化学反应速率提高则会降低浓度水平。此外,索雷特参数值越高,速度和浓度越大。从数量上看,与铜机油纳米流体相比,二氧化钛机油纳米流体的速度提高了 15%,这凸显了二氧化钛在动态热系统中的卓越性能。此外,还列出了局部表皮争论、努塞尔特数和舍伍德数的数值结果,以说明材料特性的影响。这项研究的成果尤其有助于优化热交换器的设计、提高汽车发动机的燃油效率,以及改进对精确热控制至关重要的工业流程。
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
Journal of King Saud University - Science
Journal of King Saud University - Science Multidisciplinary-Multidisciplinary
CiteScore
7.20
自引率
2.60%
发文量
642
审稿时长
49 days
期刊介绍: Journal of King Saud University – Science is an official refereed publication of King Saud University and the publishing services is provided by Elsevier. It publishes peer-reviewed research articles in the fields of physics, astronomy, mathematics, statistics, chemistry, biochemistry, earth sciences, life and environmental sciences on the basis of scientific originality and interdisciplinary interest. It is devoted primarily to research papers but short communications, reviews and book reviews are also included. The editorial board and associated editors, composed of prominent scientists from around the world, are representative of the disciplines covered by the journal.
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