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Arash Karimipour
Researcher at Islamic Azad University
Publications - 313
Citations - 14751
Arash Karimipour is an academic researcher from Islamic Azad University. The author has contributed to research in topics: Nanofluid & Heat transfer. The author has an hindex of 65, co-authored 257 publications receiving 10833 citations. Previous affiliations of Arash Karimipour include Virginia Tech College of Natural Resources and Environment & University of Sistan and Baluchestan.
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The effects of porosity and permeability on fluid flow and heat transfer of multi walled carbon nano-tubes suspended in oil (MWCNT/Oil nano-fluid) in a microchannel filled with a porous medium
TL;DR: In this paper, the effects of Darcy number, porosity and slip coefficients and Reynolds number on the velocity and temperature profiles and Nusselt number were studied in a two-dimensional microchannel filled with a porous medium, where the nanofluid flow through the microchannel has been modeled using the Darcy-Forchheimer equation.
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Natural convection of liquid metal in a horizontal cylindrical annulus under radial magnetic field
TL;DR: In this paper, the effect of a radial magnetic field on the steady, laminar and natural convection flow of molten potassium in a long horizontal annulus between two horizontal cylinders is investigated numerically.
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Mixed thermomagnetic convection of ferrofluid in a porous cavity equipped with rotating cylinders: LTE and LTNE models
TL;DR: In this article, the effect of the presence of cylinders in three different temperature cases to improve the heat transfer rate was investigated, and it was concluded that the magnetic field could control the fluid flow inside the cavity.
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Viscosity, cloud point, freezing point and flash point of zinc oxide/SAE50 nanolubricant
Jilin Ma,Amin Shahsavar,Abdullah A.A.A. Al-Rashed,Arash Karimipour,Hooman Yarmand,Sara Rostami +5 more
TL;DR: In this article, the performance of engine oil (SAE50) was improved by adding zinc oxide nanoparticles, which remained stable without any sedimentation for more than 5 weeks in static mode.
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Investigation the atomic arrangement and stability of the fluid inside a rough nanochannel in both presence and absence of different roughness by using of accurate nano scale simulation
TL;DR: In this paper, the effects of external forces on the fluid flow passing through a nanochannel with different shapes of the interior wall were investigated for the presence and absence of rectangular and square cuboid, ellipsoid, and hemispheroid roughness.