| Affiliation: | 1.Eawag, Swiss Federal Institute of Aquatic Science and Technology,Dübendorf,Switzerland;2.Department of Environmental Sciences, Applied and Environmental Geology,University of Basel,Basel,Switzerland;3.Office of Environmental Protection and Energy,Canton Basel-Country,Switzerland;4.Centre of Hydrogeology and Geothermics (CHYN),University of Neuchatel,Neuchatel,Switzerland |
| Abstract: | A three-dimensional groundwater model was used to improve water resource management for a study area in north-west Switzerland, where drinking-water production is close to former landfills and industrial areas. To avoid drinking-water contamination, artificial groundwater recharge with surface water is used to create a hydraulic barrier between the contaminated sites and drinking-water extraction wells. The model was used for simulating existing and proposed water management strategies as a tool to ensure the utmost security for drinking water. A systematic evaluation of the flow direction between existing observation points using a developed three-point estimation method for a large number of scenarios was carried out. It is demonstrated that systematically applying the developed methodology helps to identify vulnerable locations which are sensitive to changing boundary conditions such as those arising from changes to artificial groundwater recharge rates. At these locations, additional investigations and protection are required. The presented integrated approach, using the groundwater flow direction between observation points, can be easily transferred to a variety of hydrological settings to systematically evaluate groundwater modelling scenarios. |
