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G-Jitter Induced Magnetohydrodynamics Flow of Nanofluid with ConstantConvective Thermal and Solutal Boundary Conditions

机译：G抖动诱导恒定常数的纳米流体的磁流体动力学流动对流热边界和边界边界条件

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摘要

Taking into account the effect of constant convective thermal and mass boundary conditions, we present numerical solution of the 2-D laminar g-jitter mixed convective boundary layer flow of water-based nanofluids. The governing transport equations are converted into non-similar equations using suitable transformations, before being solved numerically by an implicit finite difference method with quasi-linearization technique. The skin friction decreases with time, buoyancy ratio, and thermophoresis parameters while it increases with frequency, mixed convection and Brownian motion parameters. Heat transfer rate decreases with time, Brownian motion, thermophoresis and diffusion-convection parameters while it increases with the Reynolds number, frequency, mixed convection, buoyancy ratio and conduction-convection parameters. Mass transfer rate decreases with time, frequency, thermophoresis, conduction-convection parameters while it increases with mixed convection, buoyancy ratio, diffusion-convection and Brownian motion parameters. To the best of our knowledge, this is the first paper on this topic and hence the results are new. We believe that the results will be useful in designing and operating thermal fluids systems for space materials processing. Special cases of theresults have been compared with published results and an excellent agreement isfound.

机译：考虑到恒定的对流热和质量边界条件的影响，我们提出了水基纳米流体的二维层流g-jitter混合对流边界层流动的数值解。在通过准线性化技术通过隐式有限差分方法进行数值求解之前，使用适当的变换将控制输运方程式转换为非相似方程式。皮肤摩擦力随时间，浮力比和热泳参数而降低，而随频率，混合对流和布朗运动参数而增加。传热速率随时间，布朗运动，热泳和扩散对流参数而降低，而随雷诺数，频率，混合对流，浮力比和传导对流参数而增加。传质速率随时间，频率，热泳，传导对流参数而降低，而随着混合对流，浮力比，扩散对流和布朗运动参数而增加。据我们所知，这是关于该主题的第一篇论文，因此结果是新的。我们相信，这些结果将对设计和运行用于空间材料加工的导热液系统很有用。的特殊情况将结果与已发布的结果进行了比较，得出了很好的共识找到了。

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期刊名称 other
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Mohammed J. Uddin; Waqar A. Khan; Ahmad Izani Md. Ismail;
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年(卷),期 -1(10),5
年度 -1
页码 e0122663
总页数 15
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3. 纳米磁流体在薄片上流动的非线性边界条件:传热和传质的强化 [J] . Vahid FARHANGMEHR, Hesam MOGHADASI, Sasan ASIAEI 中南大学学报（英文版） . 2019,第005期
4. MHD boundary layer flow and heat transfer of a nanofluid past a permeable stretching sheet with velocity, thermal and solutal slip boundary conditions [J] . Wubshet Ibrahim, Bandari Shankar Computers & Fluids . 2013,第Null期

机译：MHD边界层通过速度，热和溶滑边界条件流过可渗透拉伸片的纳米流体的流动和传热
5. Finite Element Simulation of Multi-Slip Effects on Unsteady MHD Bioconvective Micropolar Nanofluid Flow Over a Sheet with Solutal and Thermal Convective Boundary Conditions [J] . Liaqat Ali, Xiaomin Liu, Bagh Ali, Coatings . 2019,第12期

机译：具有溶图谱和热对流边界条件的纸张不稳定MHD生物无变微氧基纳米流体流动的多滑移效应的有限元模拟
6. Numerical simulation for magnetohydrodynamic three dimensional flow of Casson nanofluid with convective boundary conditions and thermal radiation [J] . Gupta Sumit, Sharma Kalpna Engineering Computations . 2017,第8期

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7. Effects of thermal boundary conditions on velocity and temperature fields of fully developed nanofluid flows in a tube [C] . Wenhao Li, Akira Nakayama 日本伝熱シンポジウム . 2014

机译：热边界条件对管内完全开发的纳米流体流动速度和温度场的影响
8. Reacting Magnetohydrodynamic (MHD) Flow of Nanofluids with Variable Thermal Conductivity and Viscosity in Presence of Thermal Radiation [D] . Jimoh, Muinat Oluwatosin. 2021

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9. Boundary layer flow past a stretching/shrinking surface beneath an external uniform shear flow with a convective surface boundary condition in a nanofluid [O] . Nor Azizah Yacob, Anuar Ishak, Ioan Pop, 2011

机译：在纳米流体中具有均匀对流表面边界条件的边界层流经过外部均匀剪切流下方的拉伸/收缩表面
10. G-jitter induced magnetohydrodynamics flow of nanofluid with constant convective thermal and solutal boundary conditions. [O] . Mohammed J Uddin, Waqar A Khan, Ahmad Izani Md Ismail 2015

机译：G-jitter引起的纳米流体的磁流体动力学流动具有恒定的对流热和溶质边界条件。

G-Jitter Induced Magnetohydrodynamics Flow of Nanofluid with ConstantConvective Thermal and Solutal Boundary Conditions

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