|Time:||October 28, 2008|
|Lecturer:||Prof. Dr. dipl. Kultur-Ing. ETH Fritz Stauffer
Institut für Umweltingenieurwissenschaften,ETH Zürich
|Venue:||Pfaffenwaldring 61, Raum U1.003 (MML), Universität Stuttgart
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Various concepts exist to model the interaction between river and groundwater. Often a linear relationship between the specific leakage rate and the difference between river head and groundwater head is assumed. The resulting leakage parameter of extended river reaches cannot be measured directly. The usual way is therefore to estimate it by model calibration using field data. However, how successful are such parameters when modelling uncalibrated periods? Are the leakage parameters constant over time? Is the relationship linear? What is the impact of impounded sections of the river?
The problem of the interaction between river and groundwater has been investigated based on field data for two examples in Switzerland (River Rhine at Rheinau, upper Limmat valley at Zurich). It could be shown that the leakage coefficient can be time dependent due to sedimentation and flood events. Moreover, seasonal fluctuations of the water temperature lead to temperature-dependent infiltration conditions. Furthermore, the leakage coefficient can be non-linear and can depend on the river head by exhibiting increased bank infiltration due to an increase of the wetted perimeter of the river bed. The transient behaviour of the leakage coefficient has to be taken into account in groundwater modelling. Therefore a periodic checking and, if required, re-calibration of the leakage coefficient is needed.