Abstract
Typhoons can often cause inundation in lower coastal cities by inducing strong surges and waves. Being affected by typhoon annually, the coastal cities in South Korea are very vulnerable to typhoons. In 2016, a typhoon ‘CHABA’, with a maximum 10 min sustained wind speed of about 50 m/s and a minimum central pressure of 905 hPa, hit South Korea, suffering tremendous damage. In particular, ‘CHABA’-induced coastal inundation resulted in serious damage to the coastal area of Busan where a lot of high-rise buildings and residential areas are concentrated, and was caused by the combined effect of tide, surge, and wave. The typhoon-induced surge raised sea levels during high tide, and the strong wave with a long period of more than 10 s eventually led to the coastal inundation at the same time. The present research focuses a numerical downscaling considering the effects of tide, surge and wave for coastal inundation induced by Typhoon ‘CHABA’. This downscaling approach applied several numerical models, which are the Weather Research and Forecasting model (WRF) for typhoon simulation, the Finite Volume Community Ocean Model (FVCOM) for tide and surge simulation, and the Simulating WAve Nearshore (SWAN) for wave simulation. In a domain covering the Korean Peninsula, typhoon-induced surges and waves were simulated applying the results simulated by WRF as meteorological conditions. In the downscaled domain ranged near the coastal area of Busan, the coastal inundation was simulated blending a storm tide height and an irregular wave height obtained from the domain, in which each height has 1 s interval. The irregular wave height was calculated using the significant wave height and peak period. Through this downscaling study, the impact of storm tide and wave on coastal inundation was estimated.
Highlights
The increase of sea temperature due to climate change may cause the sea level to rise and an increase of typhoon intensity, leading to extreme damages from flood disaster in coastal areas, including river mouth and river reaches [1,2,3,4,5,6,7,8,9,10]
The typhoon-induced surge raised sea levels during high tide, and the strong wave with a long period of more than 10 s eventually led to the coastal inundation at the same time
The present research focuses a numerical downscaling considering the effects of tide, surge and wave for coastal inundation induced by Typhoon ‘CHABA’
Summary
The increase of sea temperature due to climate change may cause the sea level to rise and an increase of typhoon intensity, leading to extreme damages from flood disaster in coastal areas, including river mouth and river reaches [1,2,3,4,5,6,7,8,9,10]. Undesirable erosion and loss of beaches along the coastline have continuously been generated with extreme flood events and storm-induced surge [13,14,15,16,17,18,19,20,21]. In the decision-making process for response to flooding-induced disasters, it is important that information about the occurrence of disaster is accurate. In recent years, a fully coupled wave-current model with unstructured grid has been used to improve accuracy of surge prediction because the typhoon-induced surface wave plays important role in the surge and coastal inundation [1]. This paper presents our finding to answer the following: (1) How much affected by typhoon ‘CHABA’ was Busan city? (2) How accurately can we predict the actions of typhoon CHABA and typhoon-induced disasters?
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