Heat conduction and mass transfer in a MHD nanofluid flow subject to generalized Fourier and Fick's law

Heat and mass transmission in Casson nanofluid flow induced by a linearly placed stretching sheet due to Cattaneo-Christov double diffusion convection with the company of thermal radiation scrutinized here. Multiple slip boundary conditions have been accounted here. Leading equations of the course h...

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Published inMechanics of advanced materials and structures Vol. 27; no. 20; pp. 1765 - 1775
Main Authors Giri, Shib Sankar, Das, Kalidas, Kundu, Prabir Kumar
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 15.10.2020
Taylor & Francis Ltd
Subjects
Boundary conditions
Casson nanofluid
Cattaneo-Christov model
Computational fluid dynamics
Conduction heating
Conductive heat transfer
Convection
double diffusion
Fluid flow
Mass transfer
MHD
Nanofluids
Parameters
Slip
Thermal radiation
Velocity distribution
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Summary:Heat and mass transmission in Casson nanofluid flow induced by a linearly placed stretching sheet due to Cattaneo-Christov double diffusion convection with the company of thermal radiation scrutinized here. Multiple slip boundary conditions have been accounted here. Leading equations of the course have been normalized via similarity approach and unraveled resulting equations numerically by using RK-4 shooting procedure. Here dual characteristic of velocity field has been perceived for the parameters, velocity slip and Casson fluid. After numerical designs, influence of emergent flow parameters on flow specific are made appropriately via graphs and charts and explained the consequences with proper reasoning.
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ISSN:1537-6494
1537-6532
DOI:10.1080/15376494.2018.1525780