Impact of urban drainage system malfunctions on pluvial flooding – Peri-urban study site in Austria

Impact of urban drainage system malfunctions on pluvial flooding – Peri-urban study site in Austria

Study region: The study site is the small city of Feldbach, Austria (1.3 km²), recently affected by urban flooding. Study focus: Urban drainage system (UDS) infrastructures are prone to malfunctions, which can reduce flow capacity and lead to increased sewer flooding during rainfall events. These ma...

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Bibliographic Details
Main Authors: Fabian Funke, Stefan Reinstaller, Manfred Kleidorfer
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:Journal of Hydrology: Regional Studies
Subjects:
Heavy rainfall
Coupled 1D/2D modelling
Urban flooding
Blue-green infrastructure
Flood hazard analysis
Climate change
Online Access:http://www.sciencedirect.com/science/article/pii/S2214581825004173
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Summary:Study region: The study site is the small city of Feldbach, Austria (1.3 km²), recently affected by urban flooding. Study focus: Urban drainage system (UDS) infrastructures are prone to malfunctions, which can reduce flow capacity and lead to increased sewer flooding during rainfall events. These malfunctions can cause urban flooding during moderate events where flooding might not otherwise occur or exacerbate flood hazards during heavy rainfall. New hydrological insights for the region: This study investigates the impact of malfunctions in central “grey” UDS infrastructures and decentralized “blue-green” infrastructures on urban flood hazard using an integrated 1D/2D urban flood model (PCSWMM). A total of 25 scenarios, including reference and malfunction cases, were analyzed under five rainfall events of varying return periods. The results reveal that malfunctions in central grey infrastructures significantly increase flooded areas by up to 85 %, thereby intensifying urban flood risk. In contrast, malfunctions in decentralized “blue-green” infrastructures have negligible impact (change in flooded area <1 %), primarily due to their limited implementation in the study area. The average increase in flooded area due to drainage system malfunctions decreases with increasing rainfall return periods, from 25.3 % to 4.75 %. This indicates that malfunctions have a greater importance during smaller-scale events. These findings underscore the critical role of proactive sewer asset management in preventing malfunctions and reducing the risk of urban pluvial flooding.
ISSN:2214-5818

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