Add to ORKGClassical Green's and Duhamel's integral formulas are enforced for the solution of one dimensional heat conduction in a slab, under general boundary conditions of the first kind. Two alternative numerical approximations are proposed, both characterized by fast convergent behavior. We first consider caloric functions with arbitrary piecewise continuous boundary conditions, and show that standard solutions based on Fourier series do not converge uniformly on the domain. Here, uniform convergence is achieved by integrations by parts. An alternative approach based on the Laplace transform is also presented, and this is shown to have an excellent convergence rate also when discontinuities are present at the boundaries. In both cases, n...
Transient heat conduction in finite slabs with position dependent heat generatio
The present work aims at applying the ideas on the analysis of improved lumped-parameter model for t...
AbstractWe propose an analytical method permitting us to solve the problems of non-stationary heat d...
Classical Green\u2019s and Duhamel\u2019s integral formulas are enforced for the solution of one dim...
A new simple analytical method for solving the problem of one-dimensional transient heat conduction ...
In this paper, the Transversal Method of Lines (TMOL) or Rothe's method is employed to obtain analyt...
Abstract Nonlinear problems for the one-dimensional heat equation in a bounded and homogeneous mediu...
An approximate solution based on the heat balance integral equation for one-dimensional unsteady sta...
This work reports improved lumped-parameter models for transient heat conduction in a slab with temp...
Temperature distributions recorded by thermocouples in a solid body (slab) subject to surface heatin...
AbstractIn this paper, we consider the one-dimensional heat conduction equation on the interval [0, ...
An analytical solution is derived for one-dimensional transient heat conduction in a composite slab ...
The function of boundary temperature variation with time, f(t) is generally defined according to mea...
This article presents new semi-analytical solutions for transient heat conduction in a slab, which e...
Unique solutions are derived for the parabolic differential equation of heat conduction in composite...
Transient heat conduction in finite slabs with position dependent heat generatio
The present work aims at applying the ideas on the analysis of improved lumped-parameter model for t...
AbstractWe propose an analytical method permitting us to solve the problems of non-stationary heat d...
Classical Green\u2019s and Duhamel\u2019s integral formulas are enforced for the solution of one dim...
A new simple analytical method for solving the problem of one-dimensional transient heat conduction ...
In this paper, the Transversal Method of Lines (TMOL) or Rothe's method is employed to obtain analyt...
Abstract Nonlinear problems for the one-dimensional heat equation in a bounded and homogeneous mediu...
An approximate solution based on the heat balance integral equation for one-dimensional unsteady sta...
This work reports improved lumped-parameter models for transient heat conduction in a slab with temp...
Temperature distributions recorded by thermocouples in a solid body (slab) subject to surface heatin...
AbstractIn this paper, we consider the one-dimensional heat conduction equation on the interval [0, ...
An analytical solution is derived for one-dimensional transient heat conduction in a composite slab ...
The function of boundary temperature variation with time, f(t) is generally defined according to mea...
This article presents new semi-analytical solutions for transient heat conduction in a slab, which e...
Unique solutions are derived for the parabolic differential equation of heat conduction in composite...
Transient heat conduction in finite slabs with position dependent heat generatio
The present work aims at applying the ideas on the analysis of improved lumped-parameter model for t...
AbstractWe propose an analytical method permitting us to solve the problems of non-stationary heat d...