Ion Aurel Cristescu (2014)
Applicationes Mathematicae
Similarity:
The backward Euler algorithm for the multidimensional nonhomogeneous heat equation is analyzed, based on the finite element method. The existence and uniqueness of the numerical solution is investigated. Also, the convergence of the numerical solutions is studied.
Azari, Hossein, Parzlivand, F., Zhang, Shuhua
Similarity:
We combine the theory of radial basis functions with the finite difference method to solve the inverse heat problem, and use five standard radial basis functions in the method of the collocation. In addition, using the newly proposed numerical procedure, we also discuss some experimental numerical results.
Friedrich Karl Hebeker (2010)
ESAIM: Mathematical Modelling and Numerical Analysis
Similarity:
We consider a domain decomposition method for some unsteady heat conduction problem in composite structures. This linear model problem is obtained by homogenization of thin layers of fibres embedded into some standard material. For ease of presentation we consider the case of two space dimensions only. The set of finite element equations obtained by the backward Euler scheme is parallelized in a problem-oriented fashion by some noniterative overlapping domain splitting method, eventually...
Kačur, Jozef, Mihala, Patrik, Tóth, Michal
Similarity:
We discuss the numerical modeling of heat exchange between the infiltrated water and porous media matrix. An unsaturated-saturated flow is considered with boundary conditions reflecting the external driven forces. The developed numerical method is efficient and can be used for solving the inverse problems concerning determination of transmission coefficients for heat energy exchange inside and also on the boundary of porous media. Numerical experiments support our method.
Calzada, Maria E. (1997)
Southwest Journal of Pure and Applied Mathematics [electronic only]
Similarity:
Werner Neundorf (1984)
Banach Center Publications
Similarity:
Qatanani, Naji A. (2003)
Journal of Applied Mathematics
Similarity:
Sara Beddiaf, Laurent Autrique, Laetitia Perez, Jean-Claude Jolly (2016)
International Journal of Applied Mathematics and Computer Science
Similarity:
Inverse three-dimensional heat conduction problems devoted to heating source localization are ill posed. Identification can be performed using an iterative regularization method based on the conjugate gradient algorithm. Such a method is usually implemented off-line, taking into account observations (temperature measurements, for example). However, in a practical context, if the source has to be located as fast as possible (e.g., for diagnosis), the observation horizon has to be reduced....
Gorbunov, V., Gorobetz, A., Sviridov, V. (2005)
Lobachevskii Journal of Mathematics
Similarity:
Stanislav Šťastník, Jiří Vala, Hana Kmínová (2007)
Kybernetika
Similarity:
Modelling of building heat transfer needs two basic material characteristics: heat conduction factor and thermal capacity. Under some simplifications these two factors can be determined from a rather simple equipment, generating heat from one of two aluminium plates into the material sample and recording temperature on the contacts between the sample and the plates. However, the numerical evaluation of both characteristics leads to a non-trivial optimization problem. This article suggests...
Samir Akesbi (2010)
ESAIM: Mathematical Modelling and Numerical Analysis
Similarity:
The aim of this work is to introduce and to analyze new algorithms for solving the transport neutronique equation in 2D geometry. These algorithms present the duplicate favors to be, on the one hand faster than some classic algorithms and easily to be implemented and naturally deviced for parallelisation on the other hand. They are based on a splitting of the collision operator holding amount of caracteristics of the transport operator. Some numerical results are given at the end...
Garey, L.E., Shaw, R.E. (1998)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Jacques Audounet, Jean-Michel Roquejoffre, Hélène Rouzaud (2010)
ESAIM: Mathematical Modelling and Numerical Analysis
Similarity:
This article is devoted to the numerical study of a flame ball model, derived by Joulin, which obeys to a singular integro-differential equation. The numerical scheme that we analyze here, is based upon a one step method, and we are interested in its long-time behaviour. We recover the same dynamics as in the continuous case: quenching, or stabilization of the flame, depending on heat losses, and an energy input parameter.