Archive/Drainage Performance Grading and Spatial Vulnerability Assessment of Urban Underpasses: A Case Study of Hangzhou
Drainage Performance Grading and Spatial Vulnerability Assessment of Urban Underpasses: A Case Study of Hangzhou
Shaojie Lei, Yihan Lou, Yating Zhou et al.
2 de julio de 2026
en

Abstract

Due to the rapid acceleration of urbanisation and the increasing occurrence of extreme rainfall events, underpasses have become critical hotspots of urban flooding vulnerability. In this study, we investigated 36 underpasses in Hangzhou using the Urban Flood Inundation Model (UFIM) to systematically evaluate their drainage performance. A high-resolution hydraulic simulation framework was developed by integrating terrain data, drainage pipe networks, pumping stations, and land-use information. Based on the maximum tolerable hourly rainfall derived from multi-scenario simulations, the facilities were divided into high-, medium-, and low-vulnerability groups. Our quantitative and spatial analyses reveal a pronounced core–periphery disparity: 41.7% of the underpasses were highly vulnerable (drainage threshold ≈ 61.3 mm/h), exhibiting significant spatial agglomeration in the older urban core. In contrast, facilities in newly developed peripheral areas demonstrated better drainage performance (threshold up to 75.6 mm/h). Furthermore, the backwater effect from downstream rivers at flood stages significantly constrains pump efficiency by increasing the static head requirement. Based on these spatial vulnerabilities and thresholds, targeted infrastructure optimisation and spatial planning strategies are proposed, shifting the focus from uniform engineering upgrades to vulnerability-based drainage capacity enhancements.

IPC Classification

G06H04B60

Keywords

drainageperformancegradingspatialvulnerabilityassessmenturbanunderpassescasehangzhouatmosphererapidaccelerationurbanisationincreasingoccurrenceextremerainfalleventsbecomecriticalhotspotsfloodinginvestigated
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