A Semi Risk-Based Approach for Managing Urban Drainage Systems under Extreme Rainfall

• Main Authors: Carlos Salinas-Rodriguez, Berry Gersonius, Chris Zevenbergen, David Serrano, Richard Ashley
• Format: Article
• Language: English
• Published: MDPI AG 2018-03-01
• Series: Water
• Subjects: extreme rainfall; risk; quick scan; urban drainage management
• Online Access: http://www.mdpi.com/2073-4441/10/4/384

Conventional design standards for urban drainage systems are not set to deal with extreme rainfall events. As these events are becoming more frequent, there is room for proposing new planning approaches and standards that are flexible enough to cope with a wide range of rainfall events. In this paper, a semi risk-based approach is presented as a simple and practical way for the analysis and management of rainfall flooding at the precinct scale. This approach uses various rainfall events as input parameters for the analysis of the flood hazard and impacts, and categorises the flood risk in different levels, ranging from very low to very high risk. When visualised on a map, the insight into the risk levels across the precinct will enable engineers and spatial planners to identify and prioritise interventions to manage the flood risk. The approach is demonstrated for a sewer district in the city of Rotterdam, the Netherlands, using a one-dimensional (1D)/two-dimensional (2D) flood model. The risk level of this area is classified as being predominantly very low or low, with a couple of locations with high and very high risk. For these locations interventions, such as disconnection and lowering street profiles, have been proposed and analysed with the 1D/2D flood model. The interventions were shown to be effective in reducing the risk levels from very high/high risk to medium/low risk.