Thermal irregular generation and absorption of nanoscale energy transportation of thermodynamic material of a micropolar fluid

IF 6 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Ain Shams Engineering Journal Pub Date : 2024-07-24 DOI:10.1016/j.asej.2024.102948
Muhammad Yasir , S. Bilal , N. Ameer Ahammad , Ibrahim E. Elseesy
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Abstract

Micropolar fluids have received a lot of interest for their industrial uses due to their distinctive microstructures. The diversified utilization of heat and mass transport process of micropolar material induced by shrinkable curved surface in raising the efficiency of numerous industrial processes has been found. For instance, extrusion procedure, fiber technology, polymer extraction, etc. The primary motive for conducting this disquisition is to explore the transmission of heat and mass in the flow of a micropolar (non-Newtonian) fluid processing vortex viscosity and micro-inertial aspects over a curved stretching/shrinking sheet. Physical factors of irregular heat generation/absorption rate along with linear radiative heat flux are included in thermal transport whereas mass diffusion involves the impact of Arrhenius kinetics and chemically reactive species. The basic constitutive equation is modeled in curvilinear coordinates after obliging conservation laws. A set of similar variables is implemented to change the governing formulation into the dimensionless format. Multiple branch solutions are attained via the bvp4c procedure. Associated distributions (velocity, micro rotation, temperature, and concentration) are organized against the sundry parameters for both branches and interpreted through sketches. Relevant quantities versus different parameters are also encountered through tabular data. The credibility of computed results is assumed by making agreement with previous studies. After a thorough insight into this work, it is inferred that multiple solutions are noted for distinct values of suction and material parameters.

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微极性流体热动力材料纳米级能量传输的热不规则生成和吸收
微极流体因其独特的微观结构而在工业应用中备受关注。人们发现,在许多工业过程中,可收缩弯曲表面诱导的微极性材料的热量和质量传输过程得到了多样化的利用,从而提高了效率。例如,挤压过程、纤维技术、聚合物提取等。进行本研究的主要动机是探索微波(非牛顿)流体在弯曲的拉伸/收缩板上流动时的热量和质量传输,该流体处理过程中存在涡流粘度和微惯性问题。热传输包括不规则热生成/吸收率和线性辐射热通量等物理因素,而质量扩散则涉及阿伦尼乌斯动力学和化学反应物种的影响。基本构成方程是在曲线坐标中根据强制守恒定律建模的。通过使用一组相似变量,可将支配公式转换为无量纲格式。通过 bvp4c 程序获得多分支解。相关分布(速度、微观旋转、温度和浓度)与两个分支的各种参数相对应,并通过草图进行解释。此外,还通过表格数据了解不同参数的相关数量。计算结果的可信度是通过与之前的研究相一致来确定的。在深入了解这项工作后,可以推断出吸力和材料参数的不同值会产生多种解决方案。
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来源期刊
Ain Shams Engineering Journal
Ain Shams Engineering Journal Engineering-General Engineering
CiteScore
10.80
自引率
13.30%
发文量
441
审稿时长
49 weeks
期刊介绍: in Shams Engineering Journal is an international journal devoted to publication of peer reviewed original high-quality research papers and review papers in both traditional topics and those of emerging science and technology. Areas of both theoretical and fundamental interest as well as those concerning industrial applications, emerging instrumental techniques and those which have some practical application to an aspect of human endeavor, such as the preservation of the environment, health, waste disposal are welcome. The overall focus is on original and rigorous scientific research results which have generic significance. Ain Shams Engineering Journal focuses upon aspects of mechanical engineering, electrical engineering, civil engineering, chemical engineering, petroleum engineering, environmental engineering, architectural and urban planning engineering. Papers in which knowledge from other disciplines is integrated with engineering are especially welcome like nanotechnology, material sciences, and computational methods as well as applied basic sciences: engineering mathematics, physics and chemistry.
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