S
Sabyasachi Mondal
Researcher at Amity University
Publications - 77
Citations - 1141
Sabyasachi Mondal is an academic researcher from Amity University. The author has contributed to research in topics: Nanofluid & Thermal radiation. The author has an hindex of 15, co-authored 61 publications receiving 741 citations. Previous affiliations of Sabyasachi Mondal include Bengal Institute of Technology & Management & University of KwaZulu-Natal.
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Unsteady Casson nanofluid flow over a stretching sheet with thermal radiation, convective and slip boundary conditions
TL;DR: In this article, the authors investigated the effect of partial slip on the velocity at the boundary, convective thermal boundary condition, Brownian and thermophoresis diffusion coefficients on the concentration boundary condition.
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On unsteady MHD mixed convection in a nanofluid due to a stretching/shrinking surface with suction/injection using the spectral relaxation method
TL;DR: In this article, the authors investigated heat and mass transfer in magnetohydrodynamic mixed convection flow of a nanofluid over an unsteady stretching/shrinking sheet.
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Effects of buoyancy ratio on double-diffusive natural convection in a lid-driven cavity
TL;DR: In this article, the effects of uniform and non-uniform heating of wall(s) on double-diffusive natural convection in a lid-driven square enclosure are analyzed.
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Mixed convection flow in an inclined enclosure under magnetic field with thermal radiation and heat generation
TL;DR: The influence of thermal radiation and heat generation on an unsteady two-dimensional natural convection flow in an inclined enclosure heated from one side and cooled from the adjacent side under the influence of a magnetic field using staggered grid finite-difference technique has been studied in this paper.
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A numerical study of unsteady non-Newtonian Powell-Eyring nanofluid flow over a shrinking sheet with heat generation and thermal radiation
TL;DR: In this article, the effects of heat generation and thermal radiation on the fluid flow are taken into account and numerical solutions of the nonlinear differential equations that describe the transport processes are obtained using a multi-domain bivariate spectral quasilinearization method.