%0 Journal Article %1 Bendel.2013 %A Bendel, David %A Beck, Ferdinand %A Dittmer, Ulrich %D 2013 %J Water Science and Technology %K Change;Environmental Climate Disposal, Fluid/methods Monitoring/methods;Sewage;Waste dittmer iswa lsww %N 1 %P 160--166 %R 10.2166/wst.2013.236 %T Modeling climate change impacts on combined sewer overflow using synthetic precipitation time series %V 68 %X In the presented study climate change impacts on combined sewer overflows (CSOs) in Baden-Wuerttemberg, Southern Germany, were assessed based on continuous long-term rainfall-runoff simulations. As input data, synthetic rainfall time series were used. The applied precipitation generator NiedSim-Klima accounts for climate change effects on precipitation patterns. Time series for the past (1961-1990) and future (2041-2050) were generated for various locations. Comparing the simulated CSO activity of both periods we observe significantly higher overflow frequencies for the future. Changes in overflow volume and overflow duration depend on the type of overflow structure. Both values will increase at simple CSO structures that merely divide the flow, whereas they will decrease when the CSO structure is combined with a storage tank. However, there is a wide variation between the results of different precipitation time series (representative for different locations).

@article{Bendel.2013, abstract = {In the presented study climate change impacts on combined sewer overflows (CSOs) in Baden-Wuerttemberg, Southern Germany, were assessed based on continuous long-term rainfall-runoff simulations. As input data, synthetic rainfall time series were used. The applied precipitation generator NiedSim-Klima accounts for climate change effects on precipitation patterns. Time series for the past (1961-1990) and future (2041-2050) were generated for various locations. Comparing the simulated CSO activity of both periods we observe significantly higher overflow frequencies for the future. Changes in overflow volume and overflow duration depend on the type of overflow structure. Both values will increase at simple CSO structures that merely divide the flow, whereas they will decrease when the CSO structure is combined with a storage tank. However, there is a wide variation between the results of different precipitation time series (representative for different locations).}, added-at = {2018-10-13T10:52:23.000+0200}, author = {Bendel, David and Beck, Ferdinand and Dittmer, Ulrich}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2f59d62767e853b0e018b672c7ea3a1d4/dhahn}, doi = {10.2166/wst.2013.236}, interhash = {59470b154a3c598aff35dc4f31a6e803}, intrahash = {f59d62767e853b0e018b672c7ea3a1d4}, issn = {02731223}, journal = {Water Science and Technology}, keywords = {Change;Environmental Climate Disposal, Fluid/methods Monitoring/methods;Sewage;Waste dittmer iswa lsww}, number = 1, pages = {160--166}, timestamp = {2018-10-13T08:54:53.000+0200}, title = {Modeling climate change impacts on combined sewer overflow using synthetic precipitation time series}, volume = 68, year = 2013 }