Investigation into silver-engine oil nanoliquid convinced by Riga surface: Deviations in three binary nanofluids

Modern Physics Letters B Pub Date : 2024-05-10 DOI:10.1142/s0217984924503858

K. Gangadhar, G. Naga Chandrika, Saeed Dinarvand

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Abstract

The Riga plate is the inventive magnetic mechanism created from assembly of arranged constant magnets and alternate electrode through the plane surface. The inventive magnetic mechanism produces the wall-parallel Lorentz force into postponing the boundary layer division and reducing turbulence effect. In this analysis, the flow performance on silver-engine oil-based nanoparticles by Casson–Jeffrey, Casson–Oldroyd-B and Casson–Maxwell binary nanofluids through the Riga plate was analyzed. By analyzing the correlation transformation, the controlling model was changed into a system of ordinary differential equations, it has been resolved by applying finite element methods. The investigation of the acquired outcomes had been verified by the flow by second-grade fluids which affected importantly the governing parameters. The both EMHD parameter and nanoparticles had acted on the thermal improvement of these non-Newtonian employing fluids. The velocity profiles were magnified when the Lorentz force was instigated over the EMHD parameter. Overall, this Casson–Jeffrey and Casson–Maxwell nanofluid model is more effective than the Casson–Oldroyd-B nanofluids model.

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里加表面说服银-机油纳米液体的研究：三种二元纳米流体的偏差

里加板是由排列整齐的恒定磁铁和交替电极通过平面组装而成的发明性磁力机构。该发明的磁性机构产生的与壁面平行的洛伦兹力推迟了边界层的分裂，减少了湍流效应。本文分析了卡森-杰弗里、卡森-奥尔德罗伊德-B 和卡森-麦克斯韦尔二元纳米流体在银机油基纳米粒子上通过里加板的流动性能。通过分析相关变换，控制模型变成了一个常微分方程系统，并应用有限元方法进行了求解。对所获结果的研究已通过对控制参数有重要影响的二级流体的流动进行了验证。电磁流参数和纳米粒子都对这些非牛顿流体的热改进产生了影响。当洛伦兹力作用于电磁流体力学参数时，速度曲线被放大。总体而言，这种 Casson-Jeffrey 和 Casson-Maxwell 纳米流体模型比 Casson-Oldroyd-B 纳米流体模型更有效。

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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Modern Physics Letters B

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