A moving mesh method is developed for the numerical solution of one-dimensional phase-change problems modelled by the phase-field equations. The computational mesh is obtained by equidistribution of a monitor function tailored for the functional variation of the phase field in the interfacial region. Existence and uniqueness of the discretised equations using a moving mesh are also established. Numerical results are given for classical and modified Stefan test problems. The numerical algorithm is relatively simple and is shown to be far more efficient than fixed grid methods
This paper discusses the application of an r- refinement, moving mesh technique for the solution of ...
There have been several recent papers on developing moving mesh methods for solving phase-field equa...
A new finite-difference method based on coordinate transformations is presented to treat phase chang...
A moving mesh method is developed for the numerical solution of one-dimensional phase-change problem...
AbstractA simple moving mesh method is proposed for solving phase-field equations. The numerical str...
A simple moving mesh method is proposed for solving phase-field equations. The numer-ical strategy i...
An adaptive moving mesh method is developed for the numerical solution of two-dimensional phase chan...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes...
A moving mesh approach is employed to simulate two-phase flow with phase change. The mathematical mo...
A highly accurate and efficient finite-difference method for phase-change problems with multiple mov...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes ...
Abstract-A highly accurate and efficient finite-difference method for phase-change problems with mul...
An r -adaptive moving mesh method is developed for the numerical solution of an enthalpy formulation...
A moving-mesh finite element method and its application to the numerical solution of phase-change pr...
Density changes occur naturally in phase change problems. It is customary in analyzing such problems...
This paper discusses the application of an r- refinement, moving mesh technique for the solution of ...
There have been several recent papers on developing moving mesh methods for solving phase-field equa...
A new finite-difference method based on coordinate transformations is presented to treat phase chang...
A moving mesh method is developed for the numerical solution of one-dimensional phase-change problem...
AbstractA simple moving mesh method is proposed for solving phase-field equations. The numerical str...
A simple moving mesh method is proposed for solving phase-field equations. The numer-ical strategy i...
An adaptive moving mesh method is developed for the numerical solution of two-dimensional phase chan...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes...
A moving mesh approach is employed to simulate two-phase flow with phase change. The mathematical mo...
A highly accurate and efficient finite-difference method for phase-change problems with multiple mov...
A distributed Lagrangian moving-mesh finite element method is applied to problems involving changes ...
Abstract-A highly accurate and efficient finite-difference method for phase-change problems with mul...
An r -adaptive moving mesh method is developed for the numerical solution of an enthalpy formulation...
A moving-mesh finite element method and its application to the numerical solution of phase-change pr...
Density changes occur naturally in phase change problems. It is customary in analyzing such problems...
This paper discusses the application of an r- refinement, moving mesh technique for the solution of ...
There have been several recent papers on developing moving mesh methods for solving phase-field equa...
A new finite-difference method based on coordinate transformations is presented to treat phase chang...