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Kamel Hooman

Mechanical Engineering Department, Persian Gulf University, Bushehr 75168, Iran

Articles:

An Exact Solution for Fully Developed Temperature Distribution in Laminar Steady Forced Convection Inside Circular Tubes with Uniform Wall Temperature - Vol. 34 '2003 - Heat Transfer Research

Axial Conduction Effects on Thermally Developing Forced Convection in a Porous Medium: Circular Tube with Uniform Wall Temperature - Vol. 34 '2003 - Heat Transfer Research

Effects of Temperature-Dependent Viscosity on Thermally Developing Forced Convection through a Porous Medium - Vol. 36 '2005 - Heat Transfer Research

Effects of Viscous Dissipation on Forced Convection in a Porous Saturated Duct with a Uniform Wall Temperature - Vol. 35 '2004 - Heat Transfer Research

Forced Convection through a Hyperporous Duct with Internal Heating/Cooling Effects - Vol. 30 '2003 - International Journal of Fluid Mechanics Research

Fully Developed Temperature Distribution in a Porous Saturated Duct of Elliptical Cross Section with Viscous Dissipation Effects and Entropy Generation Analysis - Vol. 36 '2005 - Heat Transfer Research

Heat and Fluid Flow within a Heterogeneous Porous Medium: Parallel Plate Channel with Isoflux Walls - Vol. 34 '2003 - Heat Transfer Research

Heat Transfer to Liquid Metal Flow in a Porous Saturated Circular Tube with Uniform Wall Temperature: An Exact Solution - Vol. 34 '2003 - Heat Transfer Research

Numerical Investigation of Flow and Heat Transfer of a Liquid Metal in a Compact Heat Exchanger - Vol. 35 '2004 - Heat Transfer Research

Numerical Investigation of Temperature-Dependent Viscosity Variation Effects on Thermally Developing Forced Convection through a Porous Medium - Vol. 38 '2007 - Heat Transfer Research

Second-Law Analysis of Thermally Developing Forced Convection in a Porous Medium - Vol. 36 '2005 - Heat Transfer Research

The Hazen-Dupuit-Darcy Model for Investigation of Viscous Dissipation Effects on Thermal Development of a Liquid-Metal Flow in a Porous Medium: Circular Tube with Uniform Wall Temperature - Vol. 35 '2004 - Heat Transfer Research

Using a Porous Segment to Increase Thermal Efficiency by Converting Gas Enthalpy to Thermal Radiation in High-Temperature Industrial Furnaces: Exact Solution - Vol. 35 '2004 - Heat Transfer Research

Using a Porous Segment to Increase Thermal Efficiency by Converting Gas Enthalpy to Thermal Radiation in High-Temperature Industrial Furnaces - Vol. 34 '2003 - Heat Transfer Research

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