Title : ( Navier slip effect on the thermal-flow of Walters’ liquid B flow due to porous stretching/shrinking with heat and mass transfer )
Authors: T. Anusha , U.S. Mahabaleshwar , Mohammad Hatami ,Access to full-text not allowed by authors
Abstract
The current work investigates the steady, 2D laminar flow for effect of mass transpiration and Navier slip on the flow of Walters ’ liquid B flow due to porous stretching/shrinking with heat and mass transfer. The governing equations which are a set of highly nonlinear partial differential equations are converted into a set of highly nonlinear ordinary differential equations by adopting similarity transformations and solved analytically to get velocity solution exponential form. Furthermore, the heat transfer in the flow is balanced with heat source/sink, and solved analytically to obtain solutions for temperature and mass transfer in terms of hypergeometric function upon considering the two types of boundary conditions, prescribed power law surface temperature (PST) and prescribed power law heat flux (PHF), prescribed power law surface concentration (PSC) and prescribed mass flux (PMF). The effect of mass transfer, porous media, Reynolds number, viscoelastic parameter and Navier slip on momentum and effect of Prandtl number, radiation parameter, and Schmidt number on heat and mass transfer is studied. The results are compared with previous works and were well matched with those works. Present analysis of heat and mass transfer with porous media is motivated by a wide range of techno- logical/engineering applications which includes ground pollution by chemicals which are non- Newtonian like lubricants and polymers, in the treatment of sewage sludge in drying beds and in liquid -based systems involving stretchable/shrinkable materials.
Keywords
Porous media Viscoelastic fluid Radiation Mass transpiration Navier slip Shrinking/stretching sheet@article{paperid:1087865,
author = {T. Anusha and U.S. Mahabaleshwar and Hatami, Mohammad},
title = {Navier slip effect on the thermal-flow of Walters’ liquid B flow due to porous stretching/shrinking with heat and mass transfer},
journal = {Case Studies in Thermal Engineering},
year = {2021},
volume = {28},
number = {28},
month = {December},
issn = {2214-157X},
pages = {101691--101691},
numpages = {0},
keywords = {Porous media
Viscoelastic fluid
Radiation
Mass transpiration
Navier slip
Shrinking/stretching sheet},
}
%0 Journal Article
%T Navier slip effect on the thermal-flow of Walters’ liquid B flow due to porous stretching/shrinking with heat and mass transfer
%A T. Anusha
%A U.S. Mahabaleshwar
%A Hatami, Mohammad
%J Case Studies in Thermal Engineering
%@ 2214-157X
%D 2021