Magnetohydrodynamic flow of nano Williamson fluid generated by stretching plate with multiple slips

被引:57
|
作者
Raza, Jawad [1 ]
Mebarek-Oudina, Fateh [2 ]
Mahanthesh, B. [3 ]
机构
[1] Univ Utara Malaysia, Sch Quantitat Sci, Sintok, Malaysia
[2] Univ 20 Aout 1955 Skikda, Skikda Univ, Dept Phys, Fac Sci, Skikda, Algeria
[3] Christ Univ, Dept Math, Bengaluru, India
关键词
MHD; Viscous dissipation; Joule heating; Nano Williamson fluid; Variable thickness; BOUNDARY-LAYER-FLOWS; CONTINUOUS SOLID SURFACES; STAGNATION-POINT FLOW; HEAT-TRANSFER; THERMAL-RADIATION; NANOFLUID FLOW; NATURAL-CONVECTION; MHD FLOW; CHANNEL; SHEET;
D O I
10.1108/MMMS-11-2018-0183
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Purpose The purpose of this paper is to present an exploration of multiple slips and temperature dependent thermal conductivity effects on the flow of nano Williamson fluid over a slendering stretching plate in the presence of Joule and viscous heating aspects. The effectiveness of nanoparticles is deliberated by considering Brownian moment and thermophoresis slip mechanisms. The effects of magnetism and radiative heat are also deployed. Design/methodology/approach The governing partial differential equations are non-dimensionalized and reduced to multi-degree ordinary differential equations via suitable similarity variables. The subsequent non-linear problem treated for numerical results. To measure the amount of increase/decrease in skin friction coefficient, Nusselt number and Sherwood number, the slope of linear regression line through the data points are calculated. Statistical approach is implemented to analyze the heat transfer rate. Findings The results show that temperature distribution across the flow decreases with thermal conductivity parameter. The maximum friction factor is ascertained at stronger magnetic field. Originality/value In the current paper, the magneto-nano Williamson fluid flow inspired by a stretching sheet of variable thickness is examined numerically. The rationale of the present study is to generalize the studies of Mebarek-Oudina and Makinde (2018) and Williamson (1929).
引用
收藏
页码:871 / 894
页数:24
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