Mass transpiration on Newtonian flow over a porous stretching/shrinking sheet with slip U. S. Mahabaleshwar, K. R. Nagaraju, M. A. Sheremet [et al.]
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ArticleContent type: Текст Media type: электронный Subject(s): Бринкмана число | ньютоновская жидкость | Дарси числоGenre/Form: статьи в журналах Online resources: Click here to access online
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Chinese journal of physics Vol. 63. P. 130-137Abstract: The motivation behind this article is to research the Newtonian liquid flow porous stretching/
shrinking sheet utilizing a Brinkman model. The leading system of non-linear partial differential
equations relating the article is mapped to standard ordinary differential equations via similarity
transformations. Exact result is obtained for velocity. The effects of the Brinkman number or
viscosity ratio, slip parameter, Darcy number, suction/injection (mass transpiration) parameter
and the mass suction parameter on the velocity dispersion are introduced graphically and talked
about. The outcomes have conceivable innovative applications in extrusion process and such
other unified zones and in the fluid based frameworks including stretchable materials.
Examination of fluid flow past a permeable stretching/shrinking sheet embedded in a non-Darcy
permeable medium has been performed for a wide scope of various parameters. Exact solution
has been obtained.
Библиогр.: 21 назв.
The motivation behind this article is to research the Newtonian liquid flow porous stretching/
shrinking sheet utilizing a Brinkman model. The leading system of non-linear partial differential
equations relating the article is mapped to standard ordinary differential equations via similarity
transformations. Exact result is obtained for velocity. The effects of the Brinkman number or
viscosity ratio, slip parameter, Darcy number, suction/injection (mass transpiration) parameter
and the mass suction parameter on the velocity dispersion are introduced graphically and talked
about. The outcomes have conceivable innovative applications in extrusion process and such
other unified zones and in the fluid based frameworks including stretchable materials.
Examination of fluid flow past a permeable stretching/shrinking sheet embedded in a non-Darcy
permeable medium has been performed for a wide scope of various parameters. Exact solution
has been obtained.
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