B. Fersadou scite author profile

B. Fersadou

4Publications

17Citation Statements Received

51Citation Statements Given

How they've been cited

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132

Affiliations

University of Sciences and Technology Houari Boumediene, University of Science and Technology, BP (United Kingdom)

Publications

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Mixed convection heat transfer and entropy generation analysis of copper–water nanofluid in a vertical channel with non-uniform heating

2019

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This paper reports results of a numerical investigation on mixed convection heat transfer and entropy generation for water-copper nanofluid within a vertical channel. The left wall is subjected to a heat flux density of sinusoidal variation, while the right one is cooled at uniform density. The Buongiorno model is employed to describe the nanofluid flow in order to take into account the thermophoresis effect and the Brownian motion. The governing equations are solved numerically using the finite volume method with the SIMPLE algorithm. The effects of pertinent parameters including the Richardson number (Ri), the heat flux ratio (R q) and the nanoparticles volume fraction (ϕ i) on the flow and thermal fields, as well as the entropy generation are analyzed for both non-uniform and uniform heating. The results show that the heat transfer rate and the various irreversibility modes are increased with the rise of Ri and R q and the reduction of ϕ i. It is also found that a sinusoidal heating is beneficial for the mean Nusselt number but, unfortunately, it is not favorable for the total entropy generation with augmentation rates of up to 7% and 14%, respectively. A map of the flow reversal occurrence is performed and reveals that the latter is strongly affected by the control parameters. In addition, a correlation is proposed to predict the onset of this phenomena with a maximum deviation of 5% compared to the numerical results.

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Numerical investigation of ferrofluid jet flow and convective heat transfer under the influence of magnetic sources

Nessab

Kahalerras

Fersadou

et al. 2019

Applied Thermal Engineering

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Effect of magnetohydrodynamics on heat transfer intensification and entropy generation of nanofluid flow inside two interacting open rectangular cavities

Fersadou

Kahalerras

Nessab

et al. 2019

J Therm Anal Calorim

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Forced Convection of a Confined Ferrofluid Jet Flow in a Channel Under the Influence of Magnetic Sources

2018

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B. Fersadou

Mixed convection heat transfer and entropy generation analysis of copper–water nanofluid in a vertical channel with non-uniform heating

Numerical investigation of ferrofluid jet flow and convective heat transfer under the influence of magnetic sources

Effect of magnetohydrodynamics on heat transfer intensification and entropy generation of nanofluid flow inside two interacting open rectangular cavities

Forced Convection of a Confined Ferrofluid Jet Flow in a Channel Under the Influence of Magnetic Sources

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