CHARLES, S NUMERICAL TREATMENT FOR 3-D MAGNETIZED CASSON FLUID-FLOW OVER AN UNSTEADY CONVECTIVELY HEATED SURFACE WITH VARIABLE THERMAL CONDUCTIVITY. THERMAL SCIENCE. pp. 359-373.

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Abstract

The significance of MHD stream has importance in many designing cycles, for example, peristaltic MHD blower, warm encasings, quickening agents, geothermal frameworks,
atomic garbage removal, polymer and oil advances, and plan of cooling frameworks with fluid metals. Each such utilization of MHD gives rise to inspect the issues which incorporate
MHD. The MHD are utilized by the authors like Seth et al. [1], Murthy et al. [2], Sheikholeslami and Shehzad [3], and Sheikholeslami [4]. Especially, the related boundary-layer flows
over different surfaces subject to different conditions of motion. Crane [5] developed the
closed-form solution for viscous fluid-flow by stretching surface. Later, the Crane’s concern
has been considered widely from various researchers, Abd El-Aziz and Afify [6], Mabood and Das [7], Abd El-Aziz and Afify [6], and Thumma et al. [9]. In fact, Casson fluid model is
a decent one to investigate their properties of non-Newtonian fluids which has been appeared
by the investigations in Haldar et al. [10], Sivaraj et al. [11], Gireesha et al. [12], Nayak et al.
[13], Hamid et al. [14], and Hari Krishna et al. [15].

Item Type: Article
Uncontrolled Keywords: unsteady stretching surface, convective heating process, magnetized Casson fluid, variable thermal conductivity, porous medium, numerical solution
Divisions: PSG College of Arts and Science > Department of Mathematics
Depositing User: Mr Team Mosys
Date Deposited: 04 Jul 2023 05:03
Last Modified: 04 Jul 2023 05:03
URI: http://ir.psgcas.ac.in/id/eprint/1949

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