D. D. Ganji scite author profile

In this paper simple analytical methods called homotopy perturbation method, variation iteration method, and perturbation method are employed to approach temperature distribution of porous fins. Also energy balance and Darcy's model used to formulate the heat transfer equation. To study the thermal performance, a type case considered is finite-length fin with insulated tip. The obtained results from variation iteration method are compared with other analytical techniques proposed before. These methods are homotopy perturbation method and perturbation method. Also boundary value problem is applied as a numerical method for validation. The obtained results shows that the variational iteration method is more accurate, stable, and more appropriate than other techniques. Also it is found that this method is powerful mathematical tools and can be applied to a large class of linear and non-linear problems arising in different fields of science and engineering specially some heat transfer equations.

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Heat Transfer in Nanofluid MHD Flow in a Channel With Permeable Walls

Fakour

Ganji

Khalili³

et al. 2017

Heat Trans Res

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Numerical Solutions for a Nanofluid Past Over a Stretching Circular Cylinder With Non-Uniform Heat Source

Rasekh¹,

Ganji²,

Tavakoli³

2013

Frontiers in Heat and Mass Transfer

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D. D. Ganji

Analytical study of micropolar fluid flow and heat transfer in a channel with permeable walls

Heat transfer and fluid flow of blood with nanoparticles through porous vessels in a magnetic field: A quasi-one dimensional analytical approach

Analytical investigation of nonlinear model arising in heat transfer through the porous fin

Heat Transfer in Nanofluid MHD Flow in a Channel With Permeable Walls

Numerical Solutions for a Nanofluid Past Over a Stretching Circular Cylinder With Non-Uniform Heat Source

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