M. Q. Al-Odat scite author profile

Magnetic field effect on local entropy generation due to steady two-dimensional laminar forced convection flow past a horizontal plate was numerically investigated. This study was focused on the entropy generation characteristics and its dependency on various dimensionless parameters. The effect of various dimensionless parameters, such as Hartmann number (Ha), Eckert number (Ec), Prandtl number (Pr), Joule heating parameter (R) and the free stream temperature parameter (ÃŽÂ¸Ã¢ÂˆÂž) on the entropy generation characteristics is analyzed. The dimensionless governing equations in Cartesian coordinate were solved by an implicit finite difference technique. The solutions were carried out for Ha2=0.5-3, Ec=0.01-0.05, Pr=1-5 and ÃŽÂ¸Ã¢ÂˆÂž=1.1-2.5. It was found that, the entropy generation increased with increasing Ha, Ec and R. While, increasing the free stream temperature parameter, and Prandtl number tend to decrease the local entropy generation

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Magnetic field effect on heat and fluid flow over a wavy surface with a variable heat flux

Tashtoush¹,

Al-Odat

2004

Journal of Magnetism and Magnetic Materials

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Entropy generation during fluid flow in a channel under the effect of transverse magnetic field

2007

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Influence of radiation on mixed convection over a wedge in non-Darcy porous medium

Al-Odat

Al-Hussien

Damseh

2005

Forsch Ingenieurwes

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M. Q. Al-Odat

Combined effect of heat generation or absorption and first-order chemical reaction on micropolar fluid flows over a uniformly stretched permeable surface

Effect of Magnetic Field on Entropy Generation Due to Laminar Forced Convection Past a Horizontal Flat Plate

Magnetic field effect on heat and fluid flow over a wavy surface with a variable heat flux

Entropy generation during fluid flow in a channel under the effect of transverse magnetic field

Influence of radiation on mixed convection over a wedge in non-Darcy porous medium

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