direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Page Content

Sub-Project 2 of the DFG Researchers' Group 581: Numerical Simulation of Two-Phase Flow and Mass-Transport Processes in the Subsurface

Project head
Prof. Dr.-Ing. R. Hinkelmann
Prof. Dr.-Ing. R. Helmig (Institut für Wasserbau, Universität Stuttgart)
Scientific assistant
Dipl.-Ing. L. Stadler
Project period
01.01.06 - 31.12.08
DFG - Deutsche Forschungsgemeinschaft [1]
Project partner
Institut für Wasserbau, Universität Stuttgart [2]


Das Dateilinks-Plugin steht nicht mehr zur Verfügung. Bitte verwenden Sie statt dessen das Plugin TUB Downloadliste.
Für die Löschung des alten Inhaltselements wenden Sie sich bitte an webmaster [3] unter Nennung des Direktzugangs.

The sliding of hillslopes is a result of the non-linear coupling of flow, mass transfer and deformation processes in the subsurface. An important, not fully understood key process is the fast infiltration of heavy rainfall via macropores into the subsurface; this significantly influences all following processes. Based on a model concept for multi-dimensional two-phase flow in fractured-porous media, suitable process models and coupling methods for the interaction of surface runoff, infiltration, especially preferential flow, and multi-dimensional flow in the subsurface will be developed and validated by means of infiltration experiments. For these purposes, three model concepts will be further developed and compared: combined model approach, coupling porous medium with a 1-d pipe and a double-continuum approach. In the second project period, mass-transfer processes should be included, the results should be transferred to a field case, the coupling to the deformation processes should be carried out and remediation measures should be investigated.

Further information are found at: http://www.grosshang.de/ [4]http://www.grosshang.de [5]

Benchmark macropore infiltration
Lupe [6]
Macropore in the field, process models, discretization method
Lupe [7]
Lupe [8]
single kontinum model
Lupe [9]
double kontinum model
Lupe [10]
------ Links: ------

Zusatzinformationen / Extras

Quick Access:

Schnellnavigation zur Seite über Nummerneingabe

Auxiliary Functions

Copyright TU Berlin 2008