Viscous fluid flow and heat transfer past a permeable wall jet with convective boundary conditions

IF 1.7 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Emad H. Aly, Waqar Khan Usafzai, J. Merkin, I. Pop
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引用次数: 0

Abstract

PurposeThe steady laminar wall jet flow over a stretching/shrinking surface in the presence of lateral suction or injection with a convective boundary condition is considered.Design/methodology/approachThe partial differential equations for mass, momentum and energy conservation are changed to the system of ordinary differential equations through similarity solution transformations. Solutions, both numerical and asymptotic, to these similarity equations are found in some new ranges of parameters in the governing equations.FindingsThe equations are solved both asymptotically and numerically for a range of the transpiration parameter S and the flow parameter λ given in Mahros et al. (2023), thus greatly extending the range of these previous solutions. Asymptotic solutions for both large and small values of the Prandtl number σ are derived, showing good agreement with additional numerical integrations. It should be noted that in Mahros et al. (2023), only the case when σ=1 was treated. A solution for large λ when S=1 is obtained, showing a different asymptotic form to the case when S>0 in Mahros et al. (2023). Multiple solutions were seen by them for S<0 and the nature of the lower solution branch as S→0 from below is discussed. The question as to whether the lower branch solutions join as λ>0 when S<0 is resolved through obtaining an asymptotic solution λ small.Originality/valueThe accuracy of the solutions has been checked through a detailed comparison between the solutions obtained numerically and analytically, where excellent agreement has been found. This study is important for scientists working in the area of jet flows to become familiar with the flow properties and behaviour of jets.
带有对流边界条件的粘性流体流过可渗透壁面射流并传热
设计/方法/途径通过相似解变换将质量、动量和能量守恒偏微分方程转换为常微分方程系。在 Mahros 等人(2023 年)给出的蒸腾参数 S 和流动参数 λ 的范围内,对这些相似性方程进行了渐近和数值求解,从而大大扩展了之前求解的范围。推导出了普朗特数 σ 大值和小值的渐近解,与额外的数值积分显示出良好的一致性。需要指出的是,Mahros 等人(2023 年)只处理了 σ=1 的情况。在 Mahros 等人(2023 年)的研究中,只处理了 σ=1 时的情况,得到了 S=1 时大 λ 的解,显示出与 S>0 时不同的渐近形式。原创性/价值通过详细比较数值解和解析解,检验了解的准确性,发现两者非常吻合。这项研究对于从事射流研究的科学家熟悉射流的流动特性和行为非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
自引率
5.00%
发文量
60
期刊介绍: Multidiscipline Modeling in Materials and Structures is published by Emerald Group Publishing Limited from 2010
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