Abstract
The co-occurrence of storm tide and rainstorm during tropical cyclones (TCs) can lead to compound flooding in low-lying coastal regions. The assessment of TC compound flood risk can provide vital insight for research on coastal flooding prevention. This study investigates TC compound flooding by constructing a storm surge model and overland flooding model using Delft3D Flexible Mesh (DFM), illustrating the serious consequences from the perspective of storm tide. Based on the probability distribution of storm tide, this study regards TC1415 as the 100-year event, TC6311 as the 50-year event, TC8616 as the 25-year event, TC8007 as the 10-year event, and TC7109 as the 5-year event. The results indicate that the coastal area is a major floodplain, primarily due to storm tide, with the inundation severity positively correlated with the height of the storm tide. For 100-year TC event, the inundation area with a depth above 1.0 m increases by approximately 2.5 times when compared with 5-year TC event. The comparison of single-driven flood (storm tide flooding and rainstorm inundation) and compound flood hazards shows that simply accumulating every single-driven flood hazard to define the compound flood hazard may cause underestimation. For future research on compound flooding, copula function can be adopted to investigate the joint occurrence of storm tide and rainstorm to reveal the severity of extreme TC flood hazards.
Highlights
Especially those happening during tropical cyclones (TCs), have become the most devasting and expensive natural hazards of coastal cities (Patricola and Wehner, 2018; van Oldenborgh et al, 2017; Hallegatte et al, 2013; Adelekan, 2011)
Storm tides brought on by TCs can lead to coastal flooding, and rainstorms occurring during TCs can lead to urban inundation
This study investigates the compound effect of flooding from storm tide and rainstorm during TCs to better understand of compound flooding in Haikou
Summary
Especially those happening during tropical cyclones (TCs), have become the most devasting and expensive natural hazards of coastal cities (Patricola and Wehner, 2018; van Oldenborgh et al, 2017; Hallegatte et al, 2013; Adelekan, 2011). Storm tides brought on by TCs can lead to coastal flooding, and rainstorms occurring during TCs can lead to urban inundation. Many compound flood hazards occurred in coastal regions worldwide due to TCs, such as Typhoon Irma (2017) in Jacksonville and Typhoon Lekima on China’s southeast coast. An extremely destructive flood event in Houston-Galveston during Hurricane Harvey (2017) was confirmed to be a compound flood hazard (Huang et al, 2021). It was caused by land-derived runoff (mainly considered to be rainfall) and ocean-derived forcing (mainly considered to be storm tide) (Valle-Levinson et al, 2020). It is important to investigate the compound flood risk during TCs to better comprehend flood hazards in coastal cities
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