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Lie Group and Numerical Communication of Heat and Mass Transfer Characteristics on MHD Dissipative Free Convection Steady Fluid Flow over an Inclined Permeable Plate under Second Order Chemical Reaction |
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PP: 95-105 |
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doi:10.18576/amisl/050303
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Author(s) |
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Khalil-ur-Rehman,
M. Y. Malik,
Imad Khan,
M. Aslam,
R. K. Pradhan,
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Abstract |
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| The current analysis is made to tap the untapped characteristics of steady two-dimensional magneto hydr
dynamic, viscous incompressible fluid flow over an inclined permeable surface along heat and mass transfer phenomena.
The effect logs regarding free convection is identified by incorporating viscous dissipation term in energy equation. Then,
the physical problem is mathematically modelled in terms of coupled non-linear partial differential equations. Lies scaling
group of transformations are attained and utilized to gain non-linear ordinary differential equations. For numerical
computations of these equations, we have employed shooting method conjectured with fifth order Runge-Kutta algorithm.
Furthermore, the effect logs of involved physical parameters over velocity, temperature and concentration profiles are
discussed with the aid of graphs. The present work is certified through numeric values of skin friction, Nusselt and
Sherwood numbers by providing comparison with existing literature. |
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