Boundary Layer Flow of Casson Fluid on Exponentially Stretching Porous Surface with Radiative Heat Transfer

Boundary Layer Flow of Casson Fluid on Exponentially Stretching Porous Surface with Radiative Heat Transfer

An analysis of aCasson fluid flowing over a porous exponentially stretching surface with radiation has been studied. A non-Newtonian fluid model was developed for the flow and similarity analysis used in the transformation process. The model of partial differential equations was transformed into ord...

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Veröffentlicht in:Diffusion foundations 2020-03, Vol.26, p.112-125, Article 112
Hauptverfasser: Aloliga, Golbert, Ziblim, Baba, Seini, Ibrahim Yakubu, Makinde, Oluwole Daniel
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Boundary layer flow
Mathematical models
Newtonian fluids
Non Newtonian fluids
Ordinary differential equations
Parameters
Partial differential equations
Radiative heat transfer
Runge-Kutta method
Stretching
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Zusammenfassung:An analysis of aCasson fluid flowing over a porous exponentially stretching surface with radiation has been studied. A non-Newtonian fluid model was developed for the flow and similarity analysis used in the transformation process. The model of partial differential equations was transformed into ordinary differential equations and reduced into a system of first order differential equations which was then solved using the Fourth-order Runge-Kutta algorithm alongside the Newton Raphson shooting method. The results have been presented graphically and in tabular form for various controlling parameters of the problem. It is observed that general control can be achieved by the permeability of the surface and the value of the Casson parameter.
ISSN:2296-3650
2296-3642
2674-0303
2296-3642
2674-029X
DOI:10.4028/www.scientific.net/DF.26.112