| 340 | RWTH Publication No: 47296 2012 IGPM340.pdf |
| TITLE | Analysis of a DG-XFEM Discretization for a Class of Two-Phase Mass Transport Problems |
| AUTHORS | Christoph Lehrenfeld, Arnold Reusken |
| ABSTRACT | We consider a standard model for mass transport across an evolving interface. The solution has to satisfy a jump condition across an evolving interface. We present and analyze a finite element discretization method for this mass transport problem. This method is based on a space-time approach in which a discontinuous Galerkin (DG) technique is combined with an extended finite element method (XFEM). The jump condition is satisfied in a weak sense by using the Nitsche method. This Nitsche DG-XFEM method is new. An error analysis is presented which results in optimal discretization error bounds. Results of numerical experiments are given which illustrate the accuracy of the method |
| KEYWORDS | transport problem, Nitsche method, XFEM, DG space-time finite element method |
| DOI | 10.1137/120875260 |
| PUBLICATION | SIAM journal on numerical analysis 51(2), 958-983 (2013) |
| CORRESPONDING AUTHOR | Arnold Reusken |
