S
Swati Mukhopadhyay
Researcher at University of Burdwan
Publications - 127
Citations - 4553
Swati Mukhopadhyay is an academic researcher from University of Burdwan. The author has contributed to research in topics: Boundary layer & Heat transfer. The author has an hindex of 36, co-authored 109 publications receiving 3736 citations. Previous affiliations of Swati Mukhopadhyay include Norwegian University of Science and Technology & Women's College, Kolkata.
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Slip effects on boundary layer stagnation-point flow and heat transfer towards a shrinking sheet
TL;DR: In this paper, the effects of partial slip on steady boundary layer stagnation-point flow of an incompressible fluid and heat transfer towards a shrinking sheet were analyzed using similarity transformation technique and then the self-similar equations were solved numerically using shooting method.
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Casson fluid flow over an unsteady stretching surface
TL;DR: In this paper, the authors used the Casson fluid model to characterise the non-Newtonian fluid behaviour and employed similarity transformations to transform the governing partial differential equations into ordinary differential equations.
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Slip effects on MHD boundary layer flow over an exponentially stretching sheet with suction/blowing and thermal radiation
TL;DR: In this article, the boundary layer flow and heat transfer towards a porous exponential stretching sheet in presence of a magnetic field is presented in the analysis, where velocity slip and thermal slip are considered instead of no-slip conditions at the boundary.
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Study of MHD boundary layer flow over a heated stretching sheet with variable viscosity
TL;DR: In this article, a steady two-dimensional flow of an electrically conducting incompressible fluid over a heated stretching sheet is considered, where the flow is permeated by a uniform transverse magnetic field.
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Effects of thermal radiation on micropolar fluid flow and heat transfer over a porous shrinking sheet
TL;DR: In this article, the effects of thermal radiation on the flow of micropolar fluid and heat transfer past a porous shrinking sheet is investigated and self-similar ODEs are obtained using similarity transformations from the governing PDEs and are then solved numerically by very efficient shooting method.