Investigation of Heat Transfer in Rectangular Porous Fins (Si3N4) with Temperature-Dependent Internal Heat Generation by Galerkin’s Method (GM) and Akbari-Ganji’s Method (AGM)

In this paper, heat transfer in rectangular porous fins with temperature-dependent internal heat generation, is investigated and Darcy’s model for passage velocity is applied. Heat transfer governing equation is solved by two simple and accurate methods, Galerkin’s Method (GM) and Akbari-Ganji’s Method (AGM). AGM is a simple and innovative approach can be applied for many linear and nonlinear problems and in this case by this method can reach solutions faster in comparison with other methods. Results indicate that GM and AGM are very accurate and effective in comparison with the numerical results. Porous fin is made from Si 3 N 4 . Effects of Darcy number and Rayleigh number on temperature distribution are investigated. As a main outcome, the heat generation rate is very effective in fin temperatures. When heat generation rate increases, fin temperatures increase since more amount of heat is dissipated to the surrounding.