Recent progress in Arrhenius activation energy for radiative heat transport of cross nanofluid over a melting wedge

Muhammad Azam; Zaheer Abbas

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Recent progress in Arrhenius activation energy for radiative heat transport of cross nanofluid over a melting wedge

机译：阿伦尼乌斯活化能在熔融楔块上交叉纳米流体辐射热传输的研究进展

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摘要

A theoretical numerical communication is demonstrated to analyze the impact of Arrhenius activation energy and melting phenomena on chemically reactive Falkner-Skan flow of cross nanofluid over a moving wedge with viscous dissipation and nonlinear radiation impacts. The basic partial differential equations for nanoparticle concentration, energy, momentum and mass conservation are reduced to nonlinear ordinary differential equations with the help of appropriate transforming variables and then solved numerically via bvp4c Matlab solver. It is interesting to notice that nanoparticle concentration and concentration boundary layer thickness are uplifted for enhancing values of activation energy parameter. Additionally, magnitude of heat transfer rate is a growing function of the Eckert number.

机译：通过理论数值通信分析了阿伦尼乌斯活化能和熔融现象对具有粘性耗散和非线性辐射影响的移动楔块上交叉纳米流体的化学反应性Falkner-Skan流动的影响。在适当的变换变量的帮助下，将纳米粒子浓度、能量、动量和质量守恒的基本偏微分方程简化为非线性常微分方程，然后通过bvp4c Matlab求解器进行数值求解。有趣的是，纳米颗粒浓度和浓度边界层厚度被提升，以增强活化能参数值。此外，传热速率的大小是埃克特数的递增函数。

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来源
《propulsion and power research》 |2021年第4期|383-395|共13页
作者
Muhammad Azam; Zaheer Abbas;
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作者单位

School of Mathematics and Statistics, Yulin University;

School of Mathematics and Statistics, Beijing Institute of Technology;

Department of Mathematics, The Islamia University of Bahawalpur;

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正文语种英语
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关键词
Melting heat transfer; Activation energy; Viscous dissipation; Falkner-Skan flow; Thermal radiation; Cross nanofluid;

机译：熔融传热;活化能;粘性耗散;福克纳-斯坎流;热辐射;交叉纳米流体;

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Recent progress in Arrhenius activation energy for radiative heat transport of cross nanofluid over a melting wedge

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