Significance of exponential space-based heat source and inclined magnetic field on heat transfer of hybrid nanoliquid with homogeneous-heterogeneous chemical reactions

Wael Al-Kouz; Kharabela Swain; Basavarajappa Mahanthesh; Wasim Jamshed

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Significance of exponential space-based heat source and inclined magnetic field on heat transfer of hybrid nanoliquid with homogeneous-heterogeneous chemical reactions

机译：指数空间热源和倾斜磁场对杂种纳米烷热传递的意义，具有均相异质化学反应

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Many chemical reactive methods, like combustion, catalysis, and biochemical involve homogeneous-heterogeneous chemical reaction (HHCR). The collaboration among the heterogeneous and homogeneous reactions is exceedingly multifarious, including the creation and depletion both within the liquid and catalytic surfaces. Here, we observe the influences of Cu and Al_2O_3 nanoparticles past an elongating sheet under HHCR. An inclined magnetic field with an acute angle is applied to the direction of the flow. Further, radiative heat, temperature, and exponential space-based heat source aspects are modifying the thermal equation. The governing nonlinear equations are deciphered by utilizing the Runge-Kutta-based shooting method. It is found that HHCR reduces the solute layer thickness, whereas the increase in the angle of inclination of applied magnetism thickens momentum layer thickness.

机译：许多化学反应方法，如燃烧，催化和生化涉及均相 - 异质化学反应（HHCR）。异质和均相反应之间的合作非常多种，包括在液体和催化表面内的产生和耗尽。在这里，我们观察Cu和Al_2O_3纳米颗粒在HHCR下通过伸长块的影响。施加锐角的倾斜磁场被施加到流动方向上。此外，辐射热，温度和基于指数的基于空间的热源方面正在改变热方程。通过利用基于Runge-Kutta的拍摄方法来破译控制非线性方程。发现HHCR降低了溶质层厚度，而施加磁力的倾斜角度的增加变稠了动量层厚度。

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来源
《Heat transfer》 |2021年第4期|4086-4102|共17页
作者
Wael Al-Kouz; Kharabela Swain; Basavarajappa Mahanthesh; Wasim Jamshed;
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作者单位

Department of Mechanical and Maintenance Engineering German Jordanian University Amman Jordan;

Department of Mathematics Gandhi Institute for Technology Bhubaneswar India;

Department of Mathematics CHRIST (Deemed to be University) Bengaluru India;

Department of Mathematics Capital University of Science and Technology (CUST) Islamabad Pakistan;

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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
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关键词
heat transfer; homogeneous and heterogeneous chemical reactions; hybrid nanofluid; inclined magnetic field; nanoparticles; thermal radiation;

机译：传播热量;均匀和异质化学反应;杂交纳米流体;倾斜磁场;纳米粒子;热辐射;

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Significance of exponential space-based heat source and inclined magnetic field on heat transfer of hybrid nanoliquid with homogeneous-heterogeneous chemical reactions

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