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Integrated Risk Assessment of Waterlogging in Guangzhou Based on Runoff Modeling, AHP, GIS and Scenario Analysis

Shuai Xie, Wan Liu, Zhe Yuan, Hongyun Zhang, Hang Lin, Yongqiang Wang

2022Water21 citationsDOIOpen Access PDF

Abstract

Among the various natural disasters encountered by cities, rainstorm waterlogging has become a serious disaster, affecting the sustainable development of cities. Taking Guangzhou as the research object, based on disaster system theory and risk triangle theory, the evaluation framework “risk of hazard causing factors—sensitivity of disaster environment—vulnerability of hazard bearing body” was selected to construct the waterlogging risk assessment model of Guangzhou. The weighted comprehensive evaluation method (AHP) was used to determine the index weight, and the rainfall runoff inundation range under different rainstorm scenarios was deduced through a Soil Conservation Service (SCS) runoff generation model and GIS local equal volume passive inundation simulation. The results show that when the precipitation in 2 h is less than 100 mm, the inundation range increases by 3.4 km2 for every 10 mm increase in precipitation; When the precipitation in 2 h is greater than 100 mm, the inundation range will increase by 18 km2 for every 10 mm increase in precipitation. The total area of medium and high flood risk in Guangzhou is 441.3 km2, mainly concentrated in Yuexiu District, Liwan District, Haizhu District and Tianhe District.

Topics & Concepts

Surface runoffWaterlogging (archaeology)Environmental scienceAnalytic hierarchy processWater resource managementFlood mythPrecipitationHydrology (agriculture)HazardGeographic information systemRunoff curve numberFlood risk assessmentHazard mapEnvironmental engineeringGeographyMeteorologyEngineeringCartographyGeotechnical engineeringWetlandOperations researchArchaeologyBiologyEcologyOrganic chemistryChemistryFlood Risk Assessment and ManagementTropical and Extratropical Cyclones ResearchHydrology and Watershed Management Studies