| Zeit: |
6. Juli 2004, 16:00 – 17:30 Uhr |
| Referent*in: |
Dr. Jürgen Geiser, Institute of Computer Science, Universität Heidelberg |
| Veranstaltungsort: |
Pfaffenwaldring 61, Raum U1.003 (MML), Universität Stuttgart
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| Download als iCal: |
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Our model is based on a potential waste-scenario fora disposal of radioactive contaminants transportedwith groundwater in porous media.The underlying equations are a system ofconvection-diffusion-reaction-equation coupled with thereaction-term. We present a solution method,based on the Operator-Splitting-method, to decouple themulti-physical and multi-dimensional processesin simple physical and one-dimensional processes.These simpler equations are discretised with analyticaland numerical methods. A new discretisation-method withembedded analytical solutions is introduced.We realise the discretisation and solver methods in theprogram-tool R3T (radionuclide-reaction-retardation-transport),which was based on the $UG$ (unstructed grid) software-toolbox.Numerical benchmark-problems are used to verify the new method.The realistic applications of a waste-disposal ispresented with different 2d and 3d transport and reactioncomputations. Different locations for the waste-disposalof the overlying rock present the usability of the disposals.The massive parallel computations are presented with thecomparison of uniform and adaptive computations.Finally we propose the further works.
