Unsteady three-dimensional stagnation point magnetohydrodynamic flow of bionanofluid with variable properties

Md Faisal Md Basir, M. J. Uddin, A. Ismail
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引用次数: 1

Abstract

Unsteady three-dimensional laminar stagnation point forced convective boundary layer magnetohydrodynamic flow of a bionanofluid with variable transport properties is studied theoretically and numerically. Thermal convective and zero mass flux boundary conditions are incorporated in this study. The transport properties are assumed to be a function of nanoparticle volume fraction to get physically realistic results. The dimensional boundary layer equations along with the coupled boundary conditions are transformed via similarity transformations into a system of ordinary differential equations. The transformed equations are solved numerically using the Runge–Kutta–Fehlberg fourth-, fifth-order numerical method. The effect of selected governing parameters, namely, viscosity, thermal conductive, mass diffusivity, microorganism diffusivity, magnetic field and bioconvection Schmidt number, on the dimensionless velocity, temperature, nanoparticle volume fraction, microorganism, skin friction coefficient, heat transfer rate, mass transfer rate and microorganism transfer rate, is illustrated graphically and interpreted in detail. Comparisons with previous works are carried out for some limiting cases and found to be in good agreement.
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变性质生物纳米流体的非定常三维滞止点磁流体动力流动
对具有变输运性质的生物纳米流体的非定常三维层流驻点强迫对流边界层磁流体动力流动进行了理论和数值研究。本文考虑了热对流和零质量通量边界条件。为了得到物理上真实的结果,我们假设输运性质是纳米颗粒体积分数的函数。将一维边界层方程及其耦合边界条件通过相似变换转化为常微分方程组。利用龙格-库塔-费贝格四、五阶数值方法对变换后的方程进行了数值求解。所选择的控制参数,即粘度、导热系数、质量扩散系数、微生物扩散系数、磁场和生物对流施密特数,对无量纲速度、温度、纳米颗粒体积分数、微生物、皮肤摩擦系数、传热率、传质率和微生物传质率的影响进行了图解和详细解释。在一些极限情况下,与前人的工作进行了比较,发现两者吻合得很好。
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来源期刊
CiteScore
6.00
自引率
1.70%
发文量
24
期刊介绍: Proceedings of the Institution of Mechanical Engineers Part N-Journal of Nanomaterials Nanoengineering and Nanosystems is a peer-reviewed scientific journal published since 2004 by SAGE Publications on behalf of the Institution of Mechanical Engineers. The journal focuses on research in the field of nanoengineering, nanoscience and nanotechnology and aims to publish high quality academic papers in this field. In addition, the journal is indexed in several reputable academic databases and abstracting services, including Scopus, Compendex, and CSA's Advanced Polymers Abstracts, Composites Industry Abstracts, and Earthquake Engineering Abstracts.
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