Modelling of stormwater infiltration for stream restoration. Beder (Aarhus) case study Luca Locatelli Phd Student DTU - Environment B. Bockhorn, (KU), K.E. Klint, (GEUS), O. Mark, (DHI), P.S. Mikkelsen, (DTU), H. Olesen, (ORBICON), N. Bischoff, (ORBICON), P.J. Binning, (DTU). The idea of the project Stormwater infiltration can contribute to streamflow Aim of the project To model the impact of stormwater infiltration in Beder • Annual water balance • Risk of polluting the primary aquifer • Flow in Hovedgrøften during periods of low stream flow The case study (1) The model area The case study (2) The geology of the area The case study (3) The primary aquifer The case study (4) The observed water level in the boreholes The case study (5) The stream catchment The model (1) MIKE SHE – MIKE 11 10 x 10 m grid Calibration and validation (2003-2008) The model (2) Scenarios: 1 BASELINE SCENARIO 2 REALISTIC INFILTRATION SCENARIO to infiltrate stormwater runoff from an area of 6.8 hectares having 25% imperviousness. 3 POTENTIAL INFILTRATON SCENARIO to infiltrate stormwater runoff from an area of 1.5 km2 having 25% imperviousness. Conclusions • Stormwater infiltration in Beder poses risk to drinking water wells • 66-73% of infiltrated stormwater runoff reaches the primary aquifer. • Realistic infiltration scenario contribute 0.1% to low stream flows of Hovedgrøften • Potential infiltration scenario contribute 11% to low stream flows of Hovedgrøften • More widespread stormwater infiltration in the catchment will likely increase streamflow during dry periods. Acknowledgment Thanks to Aarhus Vand Thank you for your attention Luca Locatelli lulo@env.dtu.dk Well number
© Copyright 2024