Abstract
In many areas of the world, dams and levees are built to reduce the likelihood of flooding. However, if they fail, the result can be catastrophic flooding beyond what would happen if they did not exist. Therefore, understanding the risk reduced by the dam or levee, as well as any risk imposed by these flood defences is of high importance when determining the appropriate risk reduction investment strategy. This paper describes an approach for quantifying and analysing risk for complex dam–levee systems, and its application to a real case study. The basis behind such approach rely on the potential of event tree modelling to analyse risk from multiple combinations of ‘load-system response-consequence’ events, tested by the authors for a real case study. The combined approach shows how the contribution to system risk of each sub-system can be assessed. It also describes how decisions on risk mitigation measures, at the individual asset scale, can and should be informed in terms of how they impact the overall system risk.
Acknowledgements
The research was conducted as part of the INICIA project (Methodology for assessing investments on water cycle infrastructures informed on risk and energy efficiency indicators, Reference BIA 2013-48157-C2-1-R); supported by the Spanish Ministry of Economy and Competitiveness (MINECO) and the European Regional Development Fund (FEDER). In addition, the work here presented is part of the activities conducted within the framework of the Memorandum of Understanding signed in August 2015 by the Department of Defense of the United States, acting through the U.S. Army Corps of Engineers (USACE) and the Spanish Ministry of Agriculture, Food and Environment (MAGRAMA), promoting collaboration in efforts involving Dam Safety and Risk Management of hydraulic infrastructures.