Effects of internal heat generation and Lorentz force on unsteady hybrid nanoliquid flow and heat transfer along a moving plate with nonuniform temperature

Rajesh Vemula; M. Kavitha; Mikhail A. Sheremet

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Effects of internal heat generation and Lorentz force on unsteady hybrid nanoliquid flow and heat transfer along a moving plate with nonuniform temperature

机译：内部发热和洛伦兹力对具有非均匀温度沿移动板的非定常混合纳米型流动和热传递的影响

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摘要

The aim oi the study: This study aims to explore the transient magnetohydrodynamics (MHD) boundary layer thermal convective flow of a hybrid nanoliquid past a moving vertical plate under the influence of internal heat generation and variable surface temperature. The research methodology: The problem is modeled by coupled nonlinear partial differential equations with relevant boundary conditions. Formulated control equations are worked out using the robust implicit finite-difference technique. The current work is validated with existing literature for special cases of the problem. The impact of important characteristics on hydrodynamic and thermal patterns, accompanied by skin friction parameter and Nusselt number, is scrutinized graphically. The major conclusion of the study: Impacts of MHD, inner thermal generation, and variable surface temperature on nanoliquid circulation and energy transport are studied. It has been found that velocity, temperature, and skin friction coefficient increase with the increase in the heat generation parameter, whereas the Nusselt number reduces with such parameter. The significance of the study: Obtained results can be used in different engineering devices, including heat exchangers, solar collectors, and chemical reactors.

机译：该研究的目的：本研究旨在探讨杂交纳米水质的瞬态磁力流体（MHD）边界层热对流流过移动垂直板在内部发热和可变表面温度的影响下。研究方法：问题是通过具有相关边界条件的耦合非线性偏微分方程建模的问题。使用稳健的隐式有限差分技术来解决配制的控制方程。目前的工作与现有的问题有关问题的特殊情况。重要特征对水动力学和热图案的影响，伴随着皮肤摩擦参数和篮板数。研究了研究的主要结论：研究了MHD，内部热产生和可变表面温度对纳米喹吖啶循环和能量运输的影响。已经发现，随着发热参数的增加，速度，温度和皮肤摩擦系数增加，而NUSERET数与这种参数减少。该研究的重要性：获得的结果可用于不同的工程装置，包括热交换器，太阳能收集器和化学反应器。

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来源
《Heat transfer》 |2021年第3期|2975-2996|共22页
作者
Rajesh Vemula; M. Kavitha; Mikhail A. Sheremet;
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作者单位

Department of Mathematics GITAM (Deemed to be University) Hyderabad India;

Department of Mathematics GITAM (Deemed to be University) Hyderabad India;

Laboratory on Convective Heat and Mass Transfer Tomsk State University Tomsk Russia;

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收录信息美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Cu; water; Cu-Al_2O_3; water; free convection; heat generation; implicit finite-difference technique; MHD; variable surface temperature; vertical plate;

机译：铜;水;CU-AL_2O_3;水;免费对流;发热;隐含有限差分技术;MHD;可变表面温度;垂直板;

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4. Joule Heating Effects on Unsteady Natural Convection Flow Near a Moving Semi-Infinite Vertical Plate with Variable Heat Flux and Mass Transfer [C] . Marneni Narahari, S. Suresh Kumar Raju, P. Nagarani International Conference on Fundamental and Applied Sciences . 2016

机译：焦耳加热对不稳定的自然对流流动，在移动半无限垂直板附近具有可变热通量和传质的垂直板
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8. SECTION Ⅰ TRANSIENT HEAT TRANSFER FOR STEADY SLUG FLOW OVER A FLAT PLATE WITH UNIFORM EXPONENTIAL HEAT GENERATION SECTION Ⅱ THEORETICAL ANALYSIS OF THE TRANSIENT HEAT TRANSFER INTO A FLUID FLOWING OVER A FLAT PLATE CONTAINING INTERNAL HEAT SOURCES [R] . H. A. JOHNSON, P. L. CHAMBRE, PAUL L. CHAMBRE 1963

机译：第一节具有均匀指数热量的平板上稳态流动的瞬态传热第二节瞬态传热在含有内部热源的平板上的流体流动的理论分析

Effects of internal heat generation and Lorentz force on unsteady hybrid nanoliquid flow and heat transfer along a moving plate with nonuniform temperature

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