Abstract
Flash flood is a dangers natural disaster causes lots of structure damage, traffic collapse, economic defects and human life loss. An efficient way to reduce its effects is preparing flash flood mapping to identify zones at risk due to flood. Flash flood mapping is a powerful tool for urban planners, traffic and infrastructure engineers, emergency and rescue services. This article proposes an approach utilizes remote sensing (RS) and geographic information system (GIS) to prepare flood risk code (FRC) map for Jeddah city, Saudi Arabia. The proposed approach applied the Curve Number (CN) method of flood modelling and uses runoff depth, land use, soil hydrological parameters, surface slope, and longest flow path to generate FRC. SPOT satellite image of the study area was classified to generate land use map, Digital Elevation Model (DEM) was used for generating slope map and for hydrology analysis using HEC-GeoHMS tool, and soil properties were generated from scanned soil maps. All data were integrated in ArcGIS 10.4.1 to prepare the final flood risk map. The results show that a precipitation of 106.3 mm will generate 136.5 million m3 of flood water. The results according to the developed flood risk code show that due to this amount of precipitation, about 1 million people live in Jeddah are prone to extreme flood risk and about 2 million of population are at major risk, the rest of population (about 0.5 million) are vulnerable to moderate to minor fold risk. The approach was verified using ground truth data and proofed precision.
Highlights
IntroductionReference [5] summarized five methods for quantitative analysis of drainage basin morphometry
The proposed approach of using remote sensing (RS) and geographic information system (GIS) for estimating flood hazard parameters was applied on Jeddah watershed affected area
The approach utilizes the use of remote sensing and GIS along with rainfall data to calculate the flood and basin morphometric parameters
Summary
Reference [5] summarized five methods for quantitative analysis of drainage basin morphometry These methods are El-Shamy’s approach, the morphometric ranking method, Wahid’s flash flood rating method, Morphometric hazard degree assessment method and the curve number (CN) method. Delineation of hydrological catchments, map overlay, and data analysis make GIS a powerful tool in hydrological modelling For these reasons many studies applied GIS and remote sensing in flood calculations e.g. Many researches attempted to configure a relationship between basin morphometric parameters and flood to produce a flood hazard risk map. References [5], [18] [19] and [20] ranked subbasins within a basin according to a series (more than 20 in some researches) of calculated morphometric parameters in order to produce a flood hazard risk map. The overlay analysis technique was used to generate the flood risk code map
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