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Parametric simulation of micropolar fluid with thermal radiation across a porous stretching surface
by
Kumam, Wiyada
, Gul, Taza
, Kumam, Poom
, Bilal, Muhammad
, Saeed, Anwar
, Mukhtar, Safyan
in
639/166
/ 639/705
/ Differential equations
/ Energy
/ Fluid flow
/ Humanities and Social Sciences
/ multidisciplinary
/ Nuclear power plants
/ Parametric statistics
/ Partial differential equations
/ Permeability
/ Public transportation
/ Radiation
/ Science
/ Science (multidisciplinary)
/ Spacecraft
/ Textiles
/ Thermal radiation
2022
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Parametric simulation of micropolar fluid with thermal radiation across a porous stretching surface
by
Kumam, Wiyada
, Gul, Taza
, Kumam, Poom
, Bilal, Muhammad
, Saeed, Anwar
, Mukhtar, Safyan
in
639/166
/ 639/705
/ Differential equations
/ Energy
/ Fluid flow
/ Humanities and Social Sciences
/ multidisciplinary
/ Nuclear power plants
/ Parametric statistics
/ Partial differential equations
/ Permeability
/ Public transportation
/ Radiation
/ Science
/ Science (multidisciplinary)
/ Spacecraft
/ Textiles
/ Thermal radiation
2022
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
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Parametric simulation of micropolar fluid with thermal radiation across a porous stretching surface
by
Kumam, Wiyada
, Gul, Taza
, Kumam, Poom
, Bilal, Muhammad
, Saeed, Anwar
, Mukhtar, Safyan
in
639/166
/ 639/705
/ Differential equations
/ Energy
/ Fluid flow
/ Humanities and Social Sciences
/ multidisciplinary
/ Nuclear power plants
/ Parametric statistics
/ Partial differential equations
/ Permeability
/ Public transportation
/ Radiation
/ Science
/ Science (multidisciplinary)
/ Spacecraft
/ Textiles
/ Thermal radiation
2022
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Parametric simulation of micropolar fluid with thermal radiation across a porous stretching surface
Journal Article
Parametric simulation of micropolar fluid with thermal radiation across a porous stretching surface
2022
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Overview
The energy transmission through micropolar fluid have a broad range implementation in the field of electronics, textiles, spacecraft, power generation and nuclear power plants. Thermal radiation's influence on an incompressible thermo-convective flow of micropolar fluid across a permeable extensible sheet with energy and mass transition is reported in the present study. The governing equations consist of Navier–Stokes equation, micro rotation, temperature and concentration equations have been modeled in the form of the system of Partial Differential Equations. The system of basic equations is reduced into a nonlinear system of coupled ODE's by using a similarity framework. The numerical solution of the problem has been obtained via PCM (Parametric Continuation Method). The findings are compared to a MATLAB built-in package called bvp4c to ensure that the scheme is valid. It has been perceived that both the results are in best agreement with each other. The effects of associated parameters on the dimensionless velocity, micro-rotation, energy and mass profiles are discussed and depicted graphically. It has been detected that the permeability parameter gives rise in micro-rotation profile.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
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