Analytical solution for convective-radiative continuously moving fin with temperature-dependent thermal conductivity

In this article, heat transfer in a moving fin with variable thermal conductivity, which is losing heat by simultaneous convection and radiation to its surroundings, is analyzed. The calculations are carried out by using the differential transformation method (DTM) which is an analytical solution technique that can be applied to various types of differential equations. The effects of parameters such as the Peclet number, Pe, thermal conductivity parameter, a, convection-conduction parameter, N _c, radiation-conduction parameter, N _r, dimensionless convection sink temperature, θ _a, and dimensionless radiation sink temperature, θ _s, on the temperature distribution are illustrated and explained. The analytical solution is found to be in good agreement with the direct numerical solution. Moreover, the results demonstrate that the DTM is very effective in generating analytical solutions for even highly nonlinear problems.