Gnanaprasunamba scite author profile

Gnanaprasunamba

2Publications

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73Citation Statements Given

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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

Gnanaprasunamba¹,

Gonchigara²

2023

ARFMTS

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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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Peristaltic Transport of Bingham Fluid through Nonuniform Channel with Convective Conditions and Lorentz Forces

Gonchigara¹,

Gnanaprasunamba²

2023

ARFMTS

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In this study, the impacts of changing the liquid characteristics of the Bingham fluid are highlighted under MHD peristaltic transport. Conditions for convective and porous boundary conditions are taken into consideration. By using proper similarity transformations, the governing equations become dimensionless. For temperature, velocity, and streamlines, the series solution is found. The MATLAB 2019b programming offers a graphical depiction of relevant metrics on physiological flow parameters. The findings demonstrate that lowering the velocity and temperature profiles occurs when the magnetic parameter is increased. Furthermore, the effect of changing viscosity increases the trapped bolus size by a small amount. Once again, the results of the present investigation have significance for our knowledge of the complex rheological mechanisms governing blood flow via small arteries.

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