Author:
Khan Shahid Ali,Nie Yufeng,Ali Bagh
Abstract
The current study investigates the numerical solution of steady heat transportation in magnetohydrodynamics flow of micropolar fluids over a porous shrinking/stretching sheet with stratified medium and buoyancy force. Based on similarity transformation, the partial differential governing
equations are assimilated into a set of nonlinear ODEs, which are numerically solved by the finite element method. All obtained unknown functions are discussed in detail after plotting the numerical results against different arising thermophysical parameters namely, suction, magnetic, stratification,
heat source, and buoyancy parameter. Under the limiting case, the numerical solution of the velocity and temperature is compared with present work. Better consistency between the two sets of solutions was determined. To verify the convergence of the numerical solution, the calculation is made
by reducing the mesh size. The present study finds applications in materials processing and demonstrates convergence characteristics for the finite element method code.
Publisher
American Scientific Publishers
Subject
Fluid Flow and Transfer Processes,Mechanical Engineering
Cited by
5 articles.
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