An r -adaptive moving mesh method is developed for the numerical solution of an enthalpy formulation of two-dimensional heat conduction problems with a phase change. The grid is obtained from a global mapping of the physical to the computational domain which is designed to cluster mesh points around the interface between the two phases of the material. The enthalpy equation is discretised using a semiimplicit Galerkin finite element method using linear basis functions. The moving finite element method is applied to problems where the phase front is cusp shaped and where the interface changes topology
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes ...
This work is concerned with the Phase-Field model of the Stefan problem, as well as the numerical so...
An r -adaptive moving mesh method is developed for the numerical solution of an enthalpy formulation...
This paper discusses the application of an r- refinement, moving mesh technique for the solution of ...
An adaptive local mesh refinement strategy for two-phase Stefan problems is discussed in light of it...
An adaptive moving mesh method is developed for the numerical solution of two-dimensional phase chan...
This paper focuses on efficiently numerical investigation of two-dimensional heat conduction problem...
A number of fixed grid finite element methods were tested on problems involving heat conduction with...
A numerical method based on an integro-differential formulation is proposed for solving a one-dimens...
A moving mesh method is developed for the numerical solution of one-dimensional phase-change problem...
The Stefan problems called as moving boundary problems are defined by the heat equation on the domai...
ABSTRACT. A general numerical finite element scheme is described for parabolic pro-blems with phase ...
A fixed-space-step method and a fixed-time-step method are presented, respectively, for solving t...
The one phase Stefan problem is discussed using the Goodman HBI method and an explicit numerical met...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes ...
This work is concerned with the Phase-Field model of the Stefan problem, as well as the numerical so...
An r -adaptive moving mesh method is developed for the numerical solution of an enthalpy formulation...
This paper discusses the application of an r- refinement, moving mesh technique for the solution of ...
An adaptive local mesh refinement strategy for two-phase Stefan problems is discussed in light of it...
An adaptive moving mesh method is developed for the numerical solution of two-dimensional phase chan...
This paper focuses on efficiently numerical investigation of two-dimensional heat conduction problem...
A number of fixed grid finite element methods were tested on problems involving heat conduction with...
A numerical method based on an integro-differential formulation is proposed for solving a one-dimens...
A moving mesh method is developed for the numerical solution of one-dimensional phase-change problem...
The Stefan problems called as moving boundary problems are defined by the heat equation on the domai...
ABSTRACT. A general numerical finite element scheme is described for parabolic pro-blems with phase ...
A fixed-space-step method and a fixed-time-step method are presented, respectively, for solving t...
The one phase Stefan problem is discussed using the Goodman HBI method and an explicit numerical met...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes ...
This work is concerned with the Phase-Field model of the Stefan problem, as well as the numerical so...