An approach for the determination of precipitation input for worst-case flood modelling

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Abstract

There is a lack of suitable methods for creating precipitation scenarios that can be used to realistically estimate peak discharges with very low probabilities. On the one hand, existing methods are methodically questionable when it comes to physical system boundaries. On the other hand, the spatio-temporal representativeness of precipitation patterns as system input is limited. In response, this paper proposes a method of deriving spatio-temporal precipitation patterns and presents a step towards making methodically correct estimations of infrequent floods by using a worst-case approach. A Monte Carlo approach allows for the generation of a wide range of different spatio-temporal distributions of an extreme precipitation event that can be tested with a rainfall–runoff model that generates a hydrograph for each of these distributions. Out of these numerous hydrographs and their corresponding peak discharges, the physically plausible spatio-temporal distributions that lead to the highest peak discharges are identified and can eventually be used for further investigations. Editor A. Castellarin; Associate editor E. Volpi

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APA

Felder, G., & Weingartner, R. (2016). An approach for the determination of precipitation input for worst-case flood modelling. Hydrological Sciences Journal, 61(14), 2600–2609. https://doi.org/10.1080/02626667.2016.1151980

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