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BIOCHEMISTRY OF FASTING – A REVIEW ON METABOLIC SWITCH AND AUTOPHAGY.
Volume - 13 | Issue-1
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ONE-POT ENVIRONMENT FRIENDLY SYNTHESIS OF IMINE DERIVATIVE OF FURFURAL AND ASSESSMENT OF ITS ANTIOXIDANT AND ANTIBACTERIAL POTENTIAL
Volume - 13 | Issue-1
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MODELING AND ANALYSIS OF MEDIA INFLUENCE OF INFORMATION DIFFUSION ON THE SPREAD OF CORONA VIRUS PANDEMIC DISEASE (COVID-19)
Volume - 13 | Issue-1
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INCIDENCE OF HISTOPATHOLOGICAL FINDINGS IN APPENDECTOMY SPECIMENS IN A TERTIARY CARE HOSPITAL IN TWO-YEAR TIME
Volume - 13 | Issue-1
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SEVERITY OF URINARY TRACT INFECTION SYMPTOMS AND THE ANTIBIOTIC RESISTANCE IN A TERTIARY CARE CENTRE IN PAKISTAN
Volume - 13 | Issue-1
Radiative convective flow of MHD hybrid nanofluid over a inverted cone with porous medium
Main Article Content
Abstract
An analysis of a MHD hybrid based nanofluid flow past a spinning cone with thermal radiation embedded in a porous medium. In this study, we consider Casson fluid model for the behavior of non – Newtonian fluid. Here, we chose Al2O3 – TiO2, TiO2 – Cu and Al2O3 – Cu hybrid nanoparticles with Newtonian and non–Newtonian base fluids. Formulated governing expressions are comprehend by implementing similarity transformations and numerically solved by an shooting scheme utilizing an Fourth-order Runge-Kutta procedure. The significance of relevant parameters are inquired in the form of plots and tables. By varying the wide values of radiation parameter and magnetic parameter, the temperature profile is mounted. Besides, tangential velocity field escalated with spin parameter and Darcy parameter. An increment in the range of pertinent variables indicates that the increase in the Skin friction coefficient of sodium alginate based hybrid nanofluid, whereas reverse trend is seen in heat transfer rate. That is, water based hybrid nanofluid is enhanced
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