Free convective flow of micropolar nanofluid over a heated stretching sheet with the impact of dissipative heat and binary chemical reactions

IF 3 3区工程技术 Q2 CHEMISTRY, ANALYTICAL Journal of Thermal Analysis and Calorimetry Pub Date : 2024-10-02 DOI:10.1007/s10973-024-13632-4

Krushna K. P. N. Nayak, A. K. Dash, S. R. Mishra, Subhajit Panda

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Abstract

Enhancing the design and performance of several industrial processes, such as heat exchangers, combustion systems, and chemical reactors, depends heavily on the effects of binary chemical reactions on heat transfer phenomena. The free convective hydromagnetic micropolar fluid moving over a stretching sheet is investigated in this work. The combined action of dissipation and bilateral reaction enhances the flow phenomenon. The implications of thermal radiation, viscous dissipation, and joule heating are included in the mathematical model. The proposed problem generates a system of nonlinear partial differential equations, which are then converted into nonlinear ordinary differential equations. The Runge–Kutta fourth-order approach combined with the Shooting scheme is used to solve these modified ODEs. Various contributing factors were analysed and illustrated through the use of graphic representations. The primary conclusions are: the non-Newtonian micropolar parameter exhibits more notable features in comparison to its Newtonian. Thermal radiation accelerates heat transport, but the magnetic parameter decelerates it.

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微波纳米流体在受热拉伸片上的自由对流，以及散热和二元化学反应的影响

提高热交换器、燃烧系统和化学反应器等若干工业流程的设计和性能，在很大程度上取决于二元化学反应对传热现象的影响。本研究探讨了在拉伸片上运动的自由对流水磁微极流体。耗散和双边反应的共同作用增强了流动现象。数学模型中包含了热辐射、粘性耗散和焦耳热的影响。提出的问题产生了一个非线性偏微分方程系统，然后将其转换为非线性常微分方程。Runge-Kutta 四阶方法与 Shooting 方案相结合，用于求解这些修正的 ODEs。通过使用图形表示法，对各种促成因素进行了分析和说明。主要结论是：与牛顿参数相比，非牛顿微观参数表现出更显著的特征。热辐射加速了热传输，而磁参数则使热传输减速。

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来源期刊

Journal of Thermal Analysis and Calorimetry 化学-分析化学

CiteScore

8.50

自引率

9.10%

发文量

577

审稿时长

3.8 months

期刊介绍： Journal of Thermal Analysis and Calorimetry is a fully peer reviewed journal publishing high quality papers covering all aspects of thermal analysis, calorimetry, and experimental thermodynamics. The journal publishes regular and special issues in twelve issues every year. The following types of papers are published: Original Research Papers, Short Communications, Reviews, Modern Instruments, Events and Book reviews. The subjects covered are: thermogravimetry, derivative thermogravimetry, differential thermal analysis, thermodilatometry, differential scanning calorimetry of all types, non-scanning calorimetry of all types, thermometry, evolved gas analysis, thermomechanical analysis, emanation thermal analysis, thermal conductivity, multiple techniques, and miscellaneous thermal methods (including the combination of the thermal method with various instrumental techniques), theory and instrumentation for thermal analysis and calorimetry.