Probabilistic Design Storm Method for Improved Flood Estimation in Ungauged Catchments

Mario Berk, Olga Špačková, Daniel Straub

Research output: Contribution to journalArticlepeer-review

10 Scopus citations

Abstract

The design storm approach with event-based rainfall-runoff models is a standard method for design flood estimation in ungauged catchments. The approach is conceptually simple and computationally inexpensive, but the underlying assumptions can lead to flawed design flood estimations. In particular, the implied average recurrence interval (ARI) neutrality between rainfall and runoff neglects uncertainty in other important parameters, leading to an underestimation of design floods. The selection of a single representative critical rainfall duration in the analysis leads to an additional underestimation of design floods. One way to overcome these nonconservative approximations is the use of a continuous rainfall-runoff model, which is associated with significant computational cost and requires rainfall input data that are often not readily available. As an alternative, we propose a novel Probabilistic Design Storm method that combines event-based flood modeling with basic probabilistic models and concepts from reliability analysis, in particular the First-Order Reliability Method (FORM). The proposed methodology overcomes the limitations of the standard design storm approach, while utilizing the same input information and models without excessive computational effort. Additionally, the Probabilistic Design Storm method allows deriving so-called design charts, which summarize representative design storm events (combinations of rainfall intensity and other relevant parameters) for floods with different return periods. These can be used to study the relationship between rainfall and runoff return periods. We demonstrate, investigate, and validate the method by means of an example catchment located in the Bavarian Pre-Alps, in combination with a simple hydrological model commonly used in practice.

Original languageEnglish
Pages (from-to)10701-10722
Number of pages22
JournalWater Resources Research
Volume53
Issue number12
DOIs
StatePublished - Dec 2017

Keywords

  • First-Order Reliability Method
  • Probabilistic Design Storm method
  • design flood
  • design storm approach
  • flood exceedance probability
  • flood frequency

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