After completion of the course, the student should be able to
Describe the application of different types of models in hydrology, including model calibration, validation and uncertainty
Use hydrological models for flood forecasting, water resources assessment, impact assessment of climate change and land-use change
Evaluate hydrological models with respect to their applications on gauged and ungauged basins and onstationary/non-stationary climatic conditions
Simulate non-reactive and reactive contaminant transport in groundwater
Apply models to geologically heterogeneous systems by means of geostatistical approaches and the estimation of uncertainties
General theory of mathematical modelling. Integration of basic processes (evaporation, snow-melt, runoff, soil water dynamics, groundwater flow) in mathematical models. Model calibration, parameter optimisation, validation of runoff and groundwater models and their inherent uncertainty. Application of rainfall-runoff models.
Principles of contaminant transport in groundwater. Modelling non-reactive and reactive contaminant transport in groundwater. Parameter estimation and geostatistical/stochastic approach to groundwater modelling. Application of MODFLOW and GMS groundwater modelling packages.
Lectures, computer exercises, project work.
Course assessment consists of two written exams, one for groundwater (3 credits) and one for surface water (3 credits), computer assignments (2 credits), and written and oral presentation of project work (2 credits).
week 13, 2015
Domenico, Patrick A.;
Schwartz, Franklin W.
Physical and chemical hydrogeology