K
Khilap Singh
Researcher at G. B. Pant University of Agriculture and Technology
Publications - 21
Citations - 315
Khilap Singh is an academic researcher from G. B. Pant University of Agriculture and Technology. The author has contributed to research in topics: Heat transfer & Nusselt number. The author has an hindex of 8, co-authored 18 publications receiving 124 citations. Previous affiliations of Khilap Singh include Dr Emilio B Espinosa Sr Memorial State College of Agriculture and Technology.
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Numerical solution of micropolar fluid flow via stretchable surface with chemical reaction and melting heat transfer using Keller-Box method
TL;DR: In this article, the numerical results of stagnation point flow of micropolar fluid over a porous stretchable surface due to the physical effects of internal heat generation/absorption, melting heat transfer and chemical reaction via Keller-Box method (KBM) were found.
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Slip flow of micropolar fluid through a permeable wedge due to the effects of chemical reaction and heat source/sink with Hall and ion-slip currents: an analytic approach
TL;DR: In this article, the combined impact of heat source/sink and chemical reaction on slip flow of micropolar fluid through a permeable wedge in the existence of Hall and ion-slip currents was studied.
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Entropy Generation Impact on Flow of Micropolar Fluid via an Inclined Channel with Non-Uniform Heat Source and Variable Fluid Properties
TL;DR: In this paper, the authors report the impacts of entropy generation on fluid flow via an inclined channel with steady vortex viscosity, changeable dynamic viscoity and thermal conductivity.
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Heat and Mass Transfer on Squeezing Unsteady MHD Nanofluid Flow between Parallel Plates with Slip Velocity Effect
TL;DR: In this article, the heat and mass transfer behavior of unsteady flow of squeezing nanofluids between two parallel plates in the sight of uniform magnetic field with slip velocity effect is investigated.
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Melting and chemical reaction effects in stagnation point flow of micropolar fluid over a stretchable porous medium in the presence of nonuniform heat source/sink
TL;DR: In this paper, a numerical solution to the melting heat transfer on micropolar fluid flow over a stretchable porous medium was investigated, where the partial differential equations of governing flow were changed to dimensionless ordinary differential equations by using similarity transformation and then solved by the Runge-Kutta-Fehlberg fourth-A nd fifth-order (RKF-45) method with shooting technique.