Combined sewer systems have a long technical lifetime, thus climate change must be taken into consideration when designing new CSO structures, basins, and pipe system enhancements. At the same time, the performance is highly dependent on antecedent conditions in the sewer system and is therefore best modelled using LTS. In the present study, we calculate indicators related to CSO statistics using synthetic time series created with different methodologies for both present and future climatic conditions. The methodology for synthetic rainfall generation influences the obtained results along with the physical properties of the catchment and the expectations to climate change.
|Titel||Conference Proceedings : 14th IWA/IAHR International Conference on Urban Drainage|
|Forlag||IWA/IAHR International Conference on Urban Drainage|
|Status||Udgivet - 2017|
|Begivenhed||14th International Conference on Urban Drainage - Prag, Tjekkiet|
Varighed: 10 sep. 2017 → 15 sep. 2017
|Konference||14th International Conference on Urban Drainage|
|Periode||10/09/2017 → 15/09/2017|
- Long term simulations
- Climate change
- Combined sewer overflow
- Rainfall generator
Sørup, H. J. D., Davidsen, S., Löwe, R., Thorndahl, S. L., Borup, M., & Arnbjerg-Nielsen, K. (2017). ICUD-0420 Testing high resolution synthetic rainfall time series representing current and future climates on CSO and other indicators. I Conference Proceedings: 14th IWA/IAHR International Conference on Urban Drainage (s. 93-94). IWA/IAHR International Conference on Urban Drainage.