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Entropy Generation Optimization in Squeezing Magnetohydrodynamics Flow of Casson Nanofluid with Viscous Dissipation and Joule Heating Effect

机译：凝固生成优化挤压磁性流体动力学流动粘性耗散和焦耳加热效应

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摘要

In this research article, the investigation of the three-dimensional Casson nanofluid flow in two rotating parallel plates has been presented. The nanofluid has been considered in steady state. The rotating plates have been considered porous. The heat equation is considered to study the magnetic field, joule heating, and viscous dissipation impacts. The nonlinear ordinary system of equations has been solved analytically and numerically. For skin friction and Nusslt number, numerical results are tabulated. It is found that velocity declines for higher values of magnetic and porosity parameter while it is heightened through squeezing parameter. Temperature is an enhancing function for Eckert number and nanoparticles volume fraction. Entropy generation is augmented with radiation parameter, Prandtl, and Eckert numbers. The Casson, porosity, magnetic field, and rotation parameters were reduced while the squeezing and suction parameters increased the velocity profile along x-direction. The porosity parameter increased the Bejan number while the Eckert and Prandtl numbers decreased the Bejan number. Skin friction was enhanced with increasing the Casson, porosity, and magnetic parameters while it decreased with enhancing rotation and squeezing parameters. All these impacts have been shown via graphs. The influences by fluid flow parameters over skin friction and Nusselt number are accessible through tables.

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期刊名称 Entropy
作者
Muhammad Zubair; Zahir Shah; Abdullah Dawar; Saeed Islam; Poom Kumam; Aurangzeb Khan;
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作者单位

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年(卷),期 2019(21),8
年度 2019
页码 747
总页数 17
原文格式 PDF
正文语种
中图分类
关键词
Casson fluid; magnetohydrodynamic (MHD); heat transfer; porosity; viscous dissipation; entropy; homotopy analysis method (HAM);

机译：鲫鱼;磁性动力学（MHD）;传热;孔隙度;粘性耗散;熵;同型分析方法（火腿）;

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专利

1. Entropy generation analysis of Casson fluid flow through a vertical microchannel under combined effect of viscous dissipation, joule heating, hall effect and thermal radiation [J] . B.J. Gireesha, S. Sindhu Multidiscipline modeling in materials and structures . 2020,第4期

机译：Casson流体通过垂直微通道在粘性耗散，焦耳，霍尔效应和热辐射效应下垂直微通道流过垂直微通道的熵生成分析
2. Entropy generation in magnetohydrodynamic radiative flow due to rotating disk in presence of viscous dissipation and Joule heating [J] . Hayat Tasawar, Qayyum Sumaira, Khan Muhammad Ijaz, Physics of fluids . 2018,第1期

机译：磁性动力学辐射流动的熵生成由于粘性耗散和焦耳加热存在旋转盘
3. Entropy optimization in Darcy–Forchheimer MHD flow of water based copper and silver nanofluids with Joule heating and viscous dissipation effects [J] . Zahir Shah, Luthais B. McCash, Abdullah Dawar, AIP Advances . 2020,第6期

机译：玉米加热和粘性耗散效应达西 - 前米铜和银纳米流体流动熵优化
4. Effect of Heat Generation and Viscous Dissipation on MHD 3D Casson Nanofluid Flow Past an Impermeable Stretching Sheet [C] . Thirupathi Thumma, S. R. Mishra, M. D. Shamshuddin International Conference on Numerical Heat Transfer and Fluid Flow . 2019

机译：发热和粘性耗散对MHD 3D Casson Nanof流体流过不透水拉伸板的影响
5. Design Optimization for Heat Dissipation in Polymver Additive Manufacturing with Joule Heating [D] . Ventura Luna, Tania Alejandra. 2017

机译：焦耳加热的聚合物增材制造中的散热设计优化
6. Influence of Newtonian Heating on Three Dimensional MHD Flow of Couple Stress Nanofluid with Viscous Dissipation and Joule Heating [O] . Muhammad Ramzan -1

机译：牛顿加热对粘性耗散焦耳加热耦合应力纳米流体三维MHD流动的影响。
7. Entropy Generation Optimization in Squeezing Magnetohydrodynamics Flow of Casson Nanofluid with Viscous Dissipation and Joule Heating Effect [O] . Muhammad Zubair, Zahir Shah, Abdullah Dawar, 2019

机译：凝固生成优化挤压磁性流体动力学流动粘性耗散和焦耳加热效应

Entropy Generation Optimization in Squeezing Magnetohydrodynamics Flow of Casson Nanofluid with Viscous Dissipation and Joule Heating Effect

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