COMPARATIVE STUDY OF MHD NANOFLUID
FLOW OVER A THIN NEEDLE
WITH EXPONENTIALLY DEPENDENT HEAT
SOURCE AND ZERO MASS FLUX
Arindam Das1, Tapas Datta2, Arijit Mandal3
1Assistant Teacher of Mathematics, Bhubanmayee Jr. High School, Pandapara Kalibari, Jalpaiguri,735132, West Bengal, India
2Department of Mathematics, Aghore Kamini Prakash Chandra Mahavidyalaya, Bengai, Hooghly, West Bengal - 712611
3Assistant Teacher, Buridaha Primary School, Buridaha, Dighalbar, Gazole, Malda, West Bengal -732138
Abstract. In this paper, the nanofluid stream over a meager needle which extends in the outspread heading within the sight of exponential space-based heat source (ESHS) and thermal based heat source (THS) is examined. The Brownian movement and thermophoresis impacts are accounted to study the nanofluids. Streams with dynamic control and with latent control have been thought about through diagrams and outlines. The resulting nonlinear differential framework is dealt with by means of shooting strategy. The effects of controlling boundaries on stream profiles are examined and portrayed with the guide of diagrams. Results show that as the ESHS and THS boundaries increment, the warm field increments. Notwithstanding, ESHS peculiarity is profoundly persuasive than THS peculiarity on energy transport and its inclination.
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Source: International Journal of Applied Mathematics
ISSN printed version: 1311-1728
ISSN on-line version: 1314-8060
Year: 2024
Volume: 37
Issue: 1
References
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