M
Mohamed A. Teamah
Researcher at Alexandria University
Publications - 52
Citations - 1207
Mohamed A. Teamah is an academic researcher from Alexandria University. The author has contributed to research in topics: Nusselt number & Combined forced and natural convection. The author has an hindex of 16, co-authored 48 publications receiving 930 citations. Previous affiliations of Mohamed A. Teamah include Arab Academy for Science, Technology & Maritime Transport.
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Modified pyramid solar still with v-corrugated absorber plate and PCM as a thermal storage medium
TL;DR: A modified pyramid solar still with both v-corrugated absorbers plate and PCM was designed, constructed and fabricated under the same ambient conditions of Tanta city, Egypt as mentioned in this paper.
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Augmentation of natural convective heat transfer in square cavity by utilizing nanofluids in the presence of magnetic field and uniform heat generation/absorption
TL;DR: In this paper, the effect of Rayleigh number, solid volume fraction and both Hartmann number and heat generation or absorption coefficient on the iso-contours of streamline and temperature were investigated in a square cavity filled with different nanofluids.
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Numerical simulation of double diffusive natural convection in rectangular enclosure in the presences of magnetic field and heat source
TL;DR: In this article, double-diffusive convective flow in a rectangular enclosure with the upper and lower surfaces being insulated and impermeable is studied numerically, and the results for the effect of thermal Rayleigh number, heat generation or absorption coefficient and the Hartmann number on the contours of streamline, temperature, and concentration as well as the dimensionless density are presented and discussed for various parametric conditions.
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Numerical study of laminar natural convection inside square enclosure with single horizontal fin
TL;DR: In this paper, a numerical study for laminar natural convection inside a square enclosure with a single horizontal fin attached to its hot wall has been carried out The enclosure horizontal surfaces are adiabatic, the left wall is hot while the right one is cold The Prandtl number for the flow inside the enclosure is 071.
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Numerical simulation of double-diffusive mixed convective flow in rectangular enclosure with insulated moving lid
TL;DR: In this paper, the mixed convection in a rectangular lid-driven cavity under the combined buoyancy effects of thermal and mass diffusion is studied numerically, where upper and lower surfaces are being insulated and impermeable.