Explicit solutions for a non-classical heat conduction problem for a semi-infinite strip with a non-uniform heat source

Abstract

A non-classical initial and boundary value problem for a non-homogeneous one-dimensional heat equation for a semi-infinite material with a zero temperature boundary condition at the face x=0 is studied with the aim of finding explicit solutions. It is not a standard heat conduction problem because a heat source -(x)F(V(t),t) is considered, where V represents the heat flux at x=0. Explicit solutions independents of the space or temporal variables are given. Solutions with separated variables when the data functions are defined from the solution X=X(x) of a linear initial value problem of second order and the solution T=T(t) of a non-linear (in general) initial value problem of first order which involves the function F, are also given and explicit solutions corresponding to different definitions of F are obtained. A solution by an integral representation depending on the heat flux at x=0 for the case in which F=F(V,t)= V, >0, is obtained and explicit expressions for the heat flux at x=0 and for its corresponding solution are calculated when h=h(x) is a potential function and =(x) is given by (x)=λ x, (x)=-μ(λ x) or (x)=-μ(λ x), λ>0 and μ>0. The limit when the temporal variable t tends to +∞ of each explicit solution obtained in this paper is studied and the "controlling" effects of the source term - F are analysed by comparing the asymptotic behavior of each solution with the asymptotic behavior of the solution to the same problem but in absence of source term. Finally, a relationship between this problem with another non-classical initial and boundary value problem for the heat equation is established and explicit solutions for this second problem are also obtained.