Techniques for assessing water infrastructure for nonstationary extreme events: a review |
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Authors: | J D Salas J Obeysekera R M Vogel |
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Institution: | 1. Department of Civil and Environmental Engineering, Colorado State University, Fort Collins, Colorado, USA;2. Hydrology &3. Hydraulics Bureau, South Florida Water Management District, West Palm Beach, Florida, USA;4. Department of Civil and Environmental Engineering, Tufts University, Medford, Massachusetts, USA |
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Abstract: | Statistical and physically-based methods have been used for designing and assessing water infrastructure such as spillways and stormwater drainage systems. Traditional approaches assume that hydrological processes evolve in an environment where the hydrological cycle is stationary over time. However, in recent years, it has become increasingly evident that in many areas of the world the foregoing assumption may no longer apply, due to the effect of anthropogenic and climatic induced stressors that cause nonstationary conditions. This has attracted the attention of national and international agencies, research institutions, academia, and practicing water specialists, which has led to developing new techniques that may be useful in those cases where there is good evidence and attribution of nonstationarity. We review the various techniques proposed in the field and point out some of the challenges ahead in future developments and applications. Our review emphasizes hydrological design to protect against extreme events such as floods and low flows. |
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Keywords: | nonstationarity hydrological variability and change hydrological extremes anthropogenic and climate change risk and return period hazard functions |
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