Anwar, Muhammad Imran and Rafique, Khuram and Misiran, Masnita and Shehzad, Sabir Ali (2019) Numerical study of hydrodynamic flow of a Casson nanomaterial past an inclined sheet under porous medium. Heat Transfer-Asian Research, 49 (1). pp. 307-334. ISSN 10992871

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Abstract

The main aim of the current paper is to investigate the mass and heat transportation of a Casson nanomaterial generated by the inclination of the surface. The magnetic field effect along with suction or injection are considered. The working nanomaterial is taken into consideration based on the concept of the Buongiorno nanofluid theory, which explores the thermal efficiencies of liquid flows under movement of Brownian and thermophoretic phenomena. The emergent system of differential expressions is converted to dimensionless form with the help of the appropriate transformations. This system is numerically executed by the implementation of Keller–Box and Newton's schemes. A good agreement of results can be found with the previous data in a limiting approach. The behavior of the physical quantities under concern, including energy exchange, Sherwood number, and wall shear stress are portrayed through graphs and in tabular form. The Nusselt number and Sherwood number are found to diminish against the altered magnitudes of Brownian motion and the inclination parameter. Moreover, the velocity profile decreases with the growth of the inclination effect. In the same vein, the buoyancy force and solutal buoyancy effects show a direct relation with the velocity field. The outcomes have promising technological uses in liquid-based systems related to stretchable constituents.

Item Type:	Article
Uncontrolled Keywords:	Casson nanofluid, inclined surface, Keller–Box method, MHD
Subjects:	Q Science > QA Mathematics
Divisions:	School of Quantitative Sciences
Depositing User:	Mrs. Norazmilah Yaakub
Date Deposited:	29 Jul 2020 07:33
Last Modified:	29 Jul 2020 07:33
URI:	https://repo.uum.edu.my/id/eprint/27296

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