Study on three-dimensional flow of Maxwell fluid over a stretching surface with convective boundary conditions

Hayat, Tasawar

doi:10.5897/ijps11.1342

Cited by 13 publications

(8 citation statements)

References 35 publications

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“…Akbar et al [26] studied the characteristics of Jeffrey fluid model for peristaltic flow of chime in small intestine with magnetic field. Few studies concerning Jeffrey fluid model over various geometries are stated in the references [27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

Numerical study of MHD heat and mass transfer of a Jeffrey fluid over a stretching sheet with chemical reaction and thermal radiation

Narayana

Babu

2016

Journal of the Taiwan Institute of Chemical Engineers

134

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Section: Introductionmentioning

confidence: 99%

Numerical study of MHD heat and mass transfer of a Jeffrey fluid over a stretching sheet with chemical reaction and thermal radiation

Narayana

Babu

2016

Journal of the Taiwan Institute of Chemical Engineers

134

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“…[2] [5]. The several other studies of Maxwell fluid are reported in the literature and few of them are [6][7][8].…”

Section: Introductionmentioning

confidence: 92%

“…The developed boundary layer equations in cylindrical coordinate system which governs the flow, heat and mass transfer are as follows [6,7,11]…”

Section: Mathematical Formulationmentioning

confidence: 99%

A computational study of Brownian and thermophoresis effects on nonlinear radiation in boundary-layer flow of Maxwell nanofluid initiated due to elongating cylinder

2017

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In this article, attention is paid to investigate the effects of non-linear thermal radiations for Maxwell nanofluid flow, flowing due to elongating cylinder. For better understanding of variations in heat transfer, non-linear heat generation is also considered. The equations of flow, heat and mass transfer due to incorporation of nano particles, are modeled through Navier-stoke, energy and concentration equations. The reduced partial differential equations are transformed into dimensionless ordinary differential equations with the help of appropriate transformations. The reduced system of ordinary differential equations is simulated by means of efficient technique namely shooting method. Significant difference in the heat transfer enhancement can be observed through temperature profiles and table of Nusselt number.From the graphs, finally it is concluded that nonlinear radiation provides better heat transfer rate at the surface of cylinder as compare to the linear or absence of radiation effects.

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“…The connective heat transfer phenomena are the subject of research which has attracted several researchers due to numerous industrial and biological engineering applications such as compulsive convection in conduits, production of papers, fibre glass, different types of paints, and electronic chips, material processing, crystal growth, nuclear reactor cooling, food processing and movement of biological fluids, drilling muds, shampoo, ketchup, cement, sludge, grease, granular suspension, aqueous foams, slurries, plastics, etc. [1,2]. Although a lot of investigation has been done on the convective heat transfer in the boundary layer flow, there will always be room for deeper and wider understanding of these phenomena.…”

Section: Introductionmentioning

confidence: 99%

Effects of Pressure Gradient on Convective Heat Transfer in a Boundary Layer Flow of a Maxwell Fluid Past a Stretching Sheet

Kashif

Salah²,

Sankar

et al. 2021

International Journal of Applied Mechanics and Engineering

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The pressure gradient term plays a vital role in convective heat transfer in the boundary layer flow of a Maxwell fluid over a stretching sheet. The importance of the effects of the term can be monitored by developing Maxwell’s equation of momentum and energy with the pressure gradient term. To achieve this goal, an approximation technique, i.e. Homotopy Perturbation Method (HPM) is employed with an application of algorithms of Adams Method (AM) and Gear Method (GM). With this approximation method we can study the effects of the pressure gradient (m), Deborah number (β), the ratio of the free stream velocity parameter to the stretching sheet parameter (ɛ) and Prandtl number (Pr) on both the momentum and thermal boundary layer thicknesses. The results have been compared in the absence and presence of the pressure gradient term m . It has an impact of thinning of the momentum and boundary layer thickness for non-zero values of the pressure gradient. The convergence of the system has been taken into account for the stretching sheet parameter ɛ. The result of the system indicates the significant thinning of the momentum and thermal boundary layer thickness in velocity and temperature profiles. On the other hand, some results show negative values of f '(η) and θ (η) which indicates the case of fluid cooling.

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Study on three-dimensional flow of Maxwell fluid over a stretching surface with convective boundary conditions

Cited by 13 publications

References 35 publications

Numerical study of MHD heat and mass transfer of a Jeffrey fluid over a stretching sheet with chemical reaction and thermal radiation

Numerical study of MHD heat and mass transfer of a Jeffrey fluid over a stretching sheet with chemical reaction and thermal radiation

A computational study of Brownian and thermophoresis effects on nonlinear radiation in boundary-layer flow of Maxwell nanofluid initiated due to elongating cylinder

Effects of Pressure Gradient on Convective Heat Transfer in a Boundary Layer Flow of a Maxwell Fluid Past a Stretching Sheet

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