Magnetic Field Dependent Thermosolutal Convection Flow between Two Squeezing Plates
Published: 2022-06-30
Page: 29-42
Issue: 2022 - Volume 5 [Issue 1]
Muhammad Basit Ali Khan
Department of Basic Science and Islamiat, University of Engineering and Technology, Peshawar, Pakistan.
Rehan Ali Shah *
Department of Basic Science and Islamiat, University of Engineering and Technology, Peshawar, Pakistan.
Sohail Khan
Department of Basic Science and Islamiat, Jiangsu University China, Peshawar, Pakistan.
*Author to whom correspondence should be addressed.
Abstract
The effect of magnetic field dependent thermosolutal convection and MFD viscosity of the fluid dynamic are studied between two squeezing plates. The unsteady constitutive expression of mass conservation modified naiver-stocks, Maxwell and MFD thermosolutal convection are coupled as a system of ordinary differential equations. The corresponding solution for momentum as well as solution for the magnetic field equations are determined by the PCM method. The validity and accuracy of PCM results is proved by the comparison of the PCM solution with numerical solver package BVP4c.It has been shown the magnetic Reynold number caused to decrease the flow, magnetic field distribution and temperature of the fluid. Also x-component and y- component of magnetic field have opposite behavior with increase in MFD viscosity.
Keywords: Thermosolutal convection, reynold number, cartesian coordinate, magnetic field.