Terrestrial Systems > Soil Physics > Research
Recent Projects
Laboratory Experiments on Solute Transport in the Unsaturated Zone
Time-Series Projection of Quantities Measured at Soil Surface to Greater Depth
Simulation of Two Phase Navier-Stokes Flow using an Unfitted Discontinuous Galerkin Discretization
Adaptive Modelling of Soil Water Flow and Solute Transport
Completed Projects
DFG research group "Dynamic capillary fringes", subproject 1 "Flow and transport in the capillary fringe"
Evaporation experiment to determine soil hydraulic properties
Optical tomography to visualize pore scale solute movement and dispersion
Water flow and solute transport in heterogeneous permeability fields
Modeling and measurement of crack formation in clay
Experimental Study of Fingering Flow in Hele-Shaw Cells
Multifunctional measurement device for energy, water and solute fluxes in column experiments
From the pore scale to the soil horizon - the MUSCAT project
Calculation of effective hydraulic properties based on the pore geometry using network modeling
X-ray tomograph to measure soil structure and its dynamics
Assessing the coupling between surface- and groundwater through modeling and comparison with environmental tracers
