Effect of Temperature Gradient Dependent Heat Source, Secondary Velocity on Mixed Convective Flow of Nanofluid through Non-Darcy Porous Medium with Hall Currents Over an Exponentially Stretching Surface with Non-Linear Thermal Radiation

Authors

  • Gnanaprasunamba epartment of Mathematics, S.S.A. Government First Grade College (Autonomous), Ballari, Karnataka, India
  • Thippeswamy Gonchigara Department of Mathematics, GVPP Government First Grade College, Hagaribommanahalli, Vijayanagara Dist, Karnataka, India

DOI:

https://doi.org/10.37934/arfmts.102.2.129142

Keywords:

Non-linear, thermal radiation, non-Darcy porous medium, nanofluid and temperature gradient heat source, second order slip

Abstract

The impact of trice request slip, non-direct warm radiation, slanted attractive field, Hall flows, compound response and dissemination on non-Darcy convective intensity and mass exchange stream of nanofluid through a permeable medium beyond a dramatically extending sheet with space temperature inclination subordinate intensity sources is well thought-out employ Runge Kutta Shooting strategy the conditions are assessed for various varieties.  It is found that an increasing with slip parameter (A1), inclination (a), reduces f ¢,f and enhances g,q. An opposite effect is observed with raising values of second order slip (B), the non-linearity (qw) in thermal radiation leads to a depreciation in the velocity components, temperature and f.

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Author Biographies

Gnanaprasunamba, epartment of Mathematics, S.S.A. Government First Grade College (Autonomous), Ballari, Karnataka, India

gnanaprasuna77@gmail.com

Thippeswamy Gonchigara, Department of Mathematics, GVPP Government First Grade College, Hagaribommanahalli, Vijayanagara Dist, Karnataka, India

thippeswamygonchigara@gmail.com

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Published

2023-02-27

How to Cite

Gnanaprasunamba, & Thippeswamy Gonchigara. (2023). Effect of Temperature Gradient Dependent Heat Source, Secondary Velocity on Mixed Convective Flow of Nanofluid through Non-Darcy Porous Medium with Hall Currents Over an Exponentially Stretching Surface with Non-Linear Thermal Radiation. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 102(2), 129–142. https://doi.org/10.37934/arfmts.102.2.129142

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