Ridha Jmai scite author profile

Natural convection in a rectangular cavity with aspect ratio (Ax), partially heated and filled with a nanofluid (Cu-Water) has been studied numerically. Two heat sources with length (B) are placed on the opposite vertical walls; the remainder of the walls is maintained adiabatic while the horizontal walls are brought to a cold temperature. The equations governing the flow are solved using a finite volume home code using a multigrid technique. Among the parameters governing the flow, a detailed study on the effects of the aspect ratio (Ax) and the length of the source (B) on flow and heat transfer rate is given. The results are shown in terms of streamlines and isotherms. It was found that the transfer of heat significantly increases with the aspect ratio (Ax) and the length of the source (B). A correlation expressing the Nusselt number as a function of (Ax) and d is established.

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Modeling of solar collectors and photovoltaic systems integrated with building assets

Oueslati¹,

Jmai²,

Cafsi³

2014

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This study is within the framework of the promotion of solar energy, environmental protection and energy conservation. It is among the works that are intended for the use of solar energy for the production of energy to buildings by the use of photovoltaic and thermal hybrid collectors (photovoltaic/thermal). The finite volume method is used. Also, a change of coordinate is adopted to pass the physical space complex geometric configuration space simplest calculation. However, the model is developed it goes numerical investigation at the end of this study the effect of alternating the air flow and heat transfer inside the channel and analyze the performance and especially the brewing the outlet temperature and the cooling of the photovoltaic cells.

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Intensification of Heat Transfer in Cavity Partially Heated and Filled with Nanofluid (Cu-Water)

Jmai

Ben-Beya

Tong

2015

ILCPA

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Ridha Jmai

Heat transfer and fluid flow of nanofluid-filled enclosure with two partially heated side walls and different nanoparticles

Numerical analysis of mixed convection at various walls speed ratios in two-sided lid-driven cavity partially heated and filled with nanofluid

Intensification of Heat Transfer in Cavity Partially Heated and Filled with Nanofluid (Cu-Water)

Modeling of solar collectors and photovoltaic systems integrated with building assets

Intensification of Heat Transfer in Cavity Partially Heated and Filled with Nanofluid (Cu-Water)

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