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U. S. Mahabaleshwar
Researcher at Davangere University
Publications - 106
Citations - 1272
U. S. Mahabaleshwar is an academic researcher from Davangere University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 11, co-authored 46 publications receiving 341 citations. Previous affiliations of U. S. Mahabaleshwar include Government First Grade College, Kolar Gold Fields.
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Effect of radiation and Navier slip boundary of Walters’ liquid B flow over a stretching sheet in a porous media
TL;DR: In this article, the steady-state momentum and radiation heat transfer flow of a viscoelastic fluid in a porous media in the presence of a linear Navier slip boundary condition was investigated.
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An MHD couple stress fluid due to a perforated sheet undergoing linear stretching with heat transfer
TL;DR: In this paper, an MHD couple stress liquid due to a perforated sheet undergoing linear stretching withドラゴンradiation is investigated, where the liquid is initially at rest with its activity is restricted by pulling the two sheet ends with parallel and identical forces.
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Effects of Dufour and Soret mechanisms on MHD mixed convective-radiative non-Newtonian liquid flow and heat transfer over a porous sheet
U. S. Mahabaleshwar,K. R. Nagaraju,P. N. Vinay Kumar,Mallikarjuna N. Nadagouda,Rachid Bennacer,Mikhail A. Sheremet +5 more
TL;DR: In this article, the mixed convection heat transfer combined with thermal radiation of a viscoelastic liquid circulation driven by a porous accelerating sheet under the inclined uniform magnetic field impact is studied.
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Magnetohydrodynamics flow of a nanofluid driven by a stretching/shrinking sheet with suction
TL;DR: It is shown that the behavior of the fluid flow changes with the change of the nanoparticles type and the analytical solution of a class of laminar boundary layer equations arising in the stretching/shrinking sheet problem is thrown light.
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An effect of MHD and radiation on CNTS-Water based nanofluids due to a stretching sheet in a Newtonian fluid
TL;DR: In this article, the presence of the magnetohydrodynamic (MHD) flow of an electrically conducting Newtonian fluid over a superlinear stretching/shrinking sheet was investigated.