Mohamed Toumi scite author profile

Mohamed Toumi

2Publications

5Citation Statements Received

46Citation Statements Given

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University of Monastir

Publications

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Three-dimensional study of parallel shear flow around an obstacle in water channel and air tunnel

Toumi

Salah

Hassen

et al. 2017

Mechanics & Industry

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The purpose of this study is to show the effect of some physical parameters on a parallel shear flow. The variation of the velocity inlet and the influence of an obstacle placed at the bottom of a channel were analyzed. The governing equations based on K-e model in a line source downstream around a three-dimensional obstacle are determined by the finite volume method with SIMPLEC algorithm. The obtained results have allowed to establish the dynamic characteristics of this kind of flow. Horizontal and vertical velocity fields, Reynolds shear stress field, turbulence intensity and scalar concentration in the water channel and a wind tunnel were exposed. These results permit us to localize the maximum and minimum zones of turbulence, which help us to exploit those fields for different purposes such as energy extraction and port infrastructure.

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Effect of heat transfer on shear flow around an obstacle

Salah

Toumi

Hassen

et al. 2019

Mechanics & Industry

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The study of heat transfer on shear flows around an obstacle presents a great interest in determination of the influence of water on buildings and port infrastructures. The variation of the inlet temperatures and the influence of an obstacle placed at the bottom of a channel were analyzed. The obtained results supported by numerical simulations have shown that the doubling of the fluid inlet temperature significantly modifies all the dynamic characteristics of the shear flow. Pressure distribution, turbulent kinetic energy, dissipation rate, turbulent viscosity, and strain rate in the water channel were exposed. These results can help us to better exploit the flow of hot water discharged by power plants.

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Mohamed Toumi

Three-dimensional study of parallel shear flow around an obstacle in water channel and air tunnel

Effect of heat transfer on shear flow around an obstacle

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