Thermal radiation and Joule heating effects on a magnetohydrodynamic Casson nanofluid flow in the presence of chemical reaction through a non-linear inclined porous stretching sheet

Dublin Core

Title

Thermal radiation and Joule heating effects on a magnetohydrodynamic Casson nanofluid flow in the presence of chemical reaction through a non-linear inclined porous stretching sheet

Subject

Thermal radiation, MHD, Casson nanofluid, Joule heating, Suction, Chemical Reaction, Keller Box method.

Description

The present study explores the thermal and Joule heating effect of Casson nanofluid flow with chemical reaction over an inclined porous stretching surface. The results of heat source/sink, viscous dissipation, and suction are regarded. The new physical governing equations of partial differential flow equations are converted into nonlinear ordinary differential equations and are numerically resolved employing the implicit finite difference technique. The influence on velocity, temperature, and concentration fields of many flow variables are addressed. The numerical and graphical findings are defined for the numerous related attentiveness flow parameters. The empirical data reported are compared with the published outcomes.

Creator

Goud, B. Shankar
Reddy, Y. Dharmendar
Rao, V. Srinivasa

Source

Journal of Naval Architecture and Marine Engineering; Vol. 17 No. 2 (2020); 143-164
2070-8998
1813-8535

Publisher

Association of Naval Architects and Marine Engineers

Date

2020-12-28

Rights

Copyright (c) 2020 Journal of Naval Architecture and Marine Engineering

Relation

Format

application/pdf

Language

eng

Type

info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion

Identifier

Citation

B Goud. Shankar, Y Reddy. Dharmendar and V Rao. Srinivasa, Thermal radiation and Joule heating effects on a magnetohydrodynamic Casson nanofluid flow in the presence of chemical reaction through a non-linear inclined porous stretching sheet, Association of Naval Architects and Marine Engineers, 2020, accessed November 5, 2024, https://igi.indrastra.com/items/show/3327

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