Andreas Rupp

Persönliche Webseite:
Scopus Autoren ID: 57193843886


Lehrstuhl für Angewandte Mathematik

Mitarbeit in Forschungsprojekten

(DFG RU 2179 “MAD Soil - Microaggregates: Formation and turnover of the structural building blocks of soils”):
Mechanistische Modellierung der Formation und Konsolidierung von Mikroaggregaten in Böden
Dr. Alexander Prechtel; Dr. Nadja Ray
(01.01.2016 - 31.12.2019)

Publikationen (Download BibTeX)

Reuter, B., Rupp, A., Aizinger, V., & Knabner, P. (2019). Discontinuous Galerkin method for coupling hydrostatic free surface flows to saturated subsurface systems. Computers & Mathematics With Applications, 77(9), 2291-2309.
Rupp, A., Knabner, P., & Dawson, C. (2018). A local discontinuous Galerkin scheme for Darcy flow with internal jumps. Computational Geosciences, 22(4), 1149-1159.
Aizinger, V., Rupp, A., Schütz, J., & Knabner, P. (2018). Analysis of a mixed discontinuous Galerkin method for instationary Darcy flow. Computational Geosciences, 22(1), 179-194.
Rupp, A., Totsche, K.U., Prechtel, A., & Ray, N. (2018). Discrete-Continuum Multiphase Model for Structure Formation in Soils Including Electrostatic Effects. Frontiers in Environmental Science, 6.
Ray, N., Rupp, A., Schulz, R., & Knabner, P. (2018). Old and New Approaches Predicting the Diffusion in Porous Media. Transport in Porous Media, 124(3), 803-824.
Rupp, A., & Knabner, P. (2017). Convergence order estimates of the local discontinuous Galerkin method for instationary Darcy flow. Numerical Methods For Partial Differential Equations, 33(4), 1374-1394.
Ray, N., Rupp, A., & Prechtel, A. (2017). Discrete-continuum multiscale model for transport, biomass development and solid restructuring in porous media. Advances in Water Resources, 107, 393-404.

Zuletzt aktualisiert 2019-01-04 um 23:52