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Flood Retention Lakes in a Rural‐Urban Catchment: Climate‐Dominated and Configuration‐Affected Performances

Haochen Yan, Mingfu Guan, Yong Kong

2023Water Resources Research14 citationsDOIOpen Access PDF

Abstract

Abstract Flood retention lakes (RLs) are widely employed in rural‐urban catchments with low impacts on the natural environment. However, insights are lacking regarding the control of climate conditions on RLs' performances and how they are affected by different geographic configurations. This study applies a 2D hydrodynamic model to perform a catchment‐scale performance assessment of RLs beyond the scope of analytical and hydrological models. We conduct extensive numerical experiments of rainstorm‐induced flooding in a rural‐urban catchment with a constructed RL and blueprinted ones upstream. Results demonstrate an L‐shaped band of satisfactory performance of the current RL in the frequency‐duration diagram, which coincides with short return periods (<5 years) and long durations (>4 hr), or short durations (<3 hr) and moderate to long return periods (5–50 years); such L‐shaped pattern is also valid for additional RLs and their combinations. With the increase in event size, the first two modes of RL performance (out of four) correspond to effective flood mitigation. When working jointly, RLs with series configurations are more effective in reducing the mainstream flood peaks, while parallel connections provide a greater spatial extent of flood hazard mitigation. For both series and parallel configurations, the upstream‐weighted settings tend to outperform downstream‐weighted ones under more extreme events; the decentralized arrangement in the urban area yields more benefits in spatial flood hazard mitigation compared to the centralized case. The study highlights the critical role of rainstorm severity (with possible spatiotemporal variabilities) in controlling RL performances despite various configurations and hydraulic settings.

Topics & Concepts

Flood mythEnvironmental scienceFlooding (psychology)Hydrology (agriculture)Drainage basinUpstream (networking)FloodplainFlood mitigationHazardScale (ratio)Natural hazardComputer scienceGeographyMeteorologyGeologyCartographyChemistryComputer networkGeotechnical engineeringOrganic chemistryArchaeologyPsychologyPsychotherapistFlood Risk Assessment and ManagementHydrology and Watershed Management StudiesUrban Stormwater Management Solutions
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