Soret and Dufour effects on flow of Casson fluid over a stretching sheet with chemical reaction

Casson fluid model is extensively used for modeling of blood flow in thin arteries at low shear rates. The article explores the effects Dufour and Soret on free convective flow of Casson fluid over a non-linearly stretching sheet embedded in a porous matrix. Further, the thermal and solutal buoyanci...

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Hauptverfasser:	Biswal, Manasa Manjari, Das, Manjula, Swain, Kharabela, Dash, Gouranga Charan
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Arteries Blood flow Boundary layers Chemical reactions Convective flow Diffusion layers Free surfaces Porous media Similarity solutions Species diffusion Stretching Suction Thermal radiation Vorticity
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creator	Biswal, Manasa Manjari Das, Manjula Swain, Kharabela Dash, Gouranga Charan
description	Casson fluid model is extensively used for modeling of blood flow in thin arteries at low shear rates. The article explores the effects Dufour and Soret on free convective flow of Casson fluid over a non-linearly stretching sheet embedded in a porous matrix. Further, the thermal and solutal buoyancies in the momentum equation, the exponential space-based heat source/sink (ESHS) and thermal radiation are also incorporated in the heat transfer equation. Similarity solutions are obtained by using appropriate transformations and the transformed equations are solved by the help of MATLAB bvp4c code. The impacts of operating parameters on velocity, temperature and concentration distributions are explained through graphs and tables. It is concluded that Dufour and Soret effects serve as the surface coolant and also for the maintenance of solutal deposition-free surface. Applied magnetic field and heavier diffusing species with suction lead to thinner boundary layer preventing vorticity diffusion.
doi_str_mv	10.1063/5.0137212
format	Conference Proceeding
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The article explores the effects Dufour and Soret on free convective flow of Casson fluid over a non-linearly stretching sheet embedded in a porous matrix. Further, the thermal and solutal buoyancies in the momentum equation, the exponential space-based heat source/sink (ESHS) and thermal radiation are also incorporated in the heat transfer equation. Similarity solutions are obtained by using appropriate transformations and the transformed equations are solved by the help of MATLAB bvp4c code. The impacts of operating parameters on velocity, temperature and concentration distributions are explained through graphs and tables. It is concluded that Dufour and Soret effects serve as the surface coolant and also for the maintenance of solutal deposition-free surface. 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The article explores the effects Dufour and Soret on free convective flow of Casson fluid over a non-linearly stretching sheet embedded in a porous matrix. Further, the thermal and solutal buoyancies in the momentum equation, the exponential space-based heat source/sink (ESHS) and thermal radiation are also incorporated in the heat transfer equation. Similarity solutions are obtained by using appropriate transformations and the transformed equations are solved by the help of MATLAB bvp4c code. The impacts of operating parameters on velocity, temperature and concentration distributions are explained through graphs and tables. It is concluded that Dufour and Soret effects serve as the surface coolant and also for the maintenance of solutal deposition-free surface. 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subjects	Arteries Blood flow Boundary layers Chemical reactions Convective flow Diffusion layers Free surfaces Porous media Similarity solutions Species diffusion Stretching Suction Thermal radiation Vorticity
title	Soret and Dufour effects on flow of Casson fluid over a stretching sheet with chemical reaction
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