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Numerical Study on the Effect of the Manila Seismic Tsunami on the Guangdong Coast——The Nonlinear Effects of Tides and Tsunamis
CAO Yonggang,LIU Changjian,LIU Tongmu,FENG Yanqing,LIU Yuqiang,LIAO Shizhi,CHEN Yizhan
Author NameAffiliation
CAO Yonggang South China Sea Marine Survey and Technology Center, SOA, Guangzhou 510300, China;State Key Laboratory of Hydraulic Engineering Simulation and Safety, Tianjin University, Tianjin 300072, China;Key Laboratory of Technology for Safeguarding of Maritime Rights and Interests and Application, SOA, Guangzhou 510310, China;Key Laboratory of Water-Sediment Sciences and Water Disaster Prevention of Hunan Province, Changsha 410004, China 
LIU Changjian South China Sea Marine Survey and Technology Center, SOA, Guangzhou 510300, China;Key Laboratory of Technology for Safeguarding of Maritime Rights and Interests and Application, SOA, Guangzhou 510310, China 
LIU Tongmu South China Sea Marine Survey and Technology Center, SOA, Guangzhou 510300, China;Key Laboratory of Technology for Safeguarding of Maritime Rights and Interests and Application, SOA, Guangzhou 510310, China 
FENG Yanqing South China Sea Marine Survey and Technology Center, SOA, Guangzhou 510300, China 
LIU Yuqiang South China Sea Marine Survey and Technology Center, SOA, Guangzhou 510300, China;Key Laboratory of Technology for Safeguarding of Maritime Rights and Interests and Application, SOA, Guangzhou 510310, China 
LIAO Shizhi South China Sea Marine Survey and Technology Center, SOA, Guangzhou 510300, China 
CHEN Yizhan South China Sea Marine Survey and Technology Center, SOA, Guangzhou 510300, China 
摘要:
The coupling numerical model between astronomical tide and tsunamis was built based on the data of the COMCOT model, which was verified by the Japan “3·11” tsunami. The tsunami source of the Manila seismic tsunami was designed and computed to analyze the risk of tsunami which will happen in the Guangdong coast. According to the results, the maximum quantity of water increasing and the time of the tsunami arriving at the Guangdong seacoast were calculated. The coupling simulation between astronomical tide and tsunamis has significant meaning for evaluating the risk and early-warning of tsunamis in the Guangdong coastal area.
关键词:  COMCOT model  Earthquake tsunami  Manila seismic zone  Numerical simulation  Guangdong coast
DOI:10.19743/j.cnki.0891-4176.201901009
分类号:
基金项目:This project was sponsored by the Youth Fund Project of the National Natural Science Foundation of China (51509023),the Open-end Fund Project of State Key Laboratory of Hydraulic Engineering Simulation and Safety (HESS-1401),Major Open-end Fund Project of Key Laboratory of South China Sea Rights Protection Technology and Application,State Oceanic Administration (SCS1606),Open-end Fund of Key Laboratory of Water-Sediment Sciences and Water Disaster Prevention of Hunan Province (2017SS04),Project supported by South China Sea Branch,State Oceanic Administration for Director of Marine Science and Technology (1417),and Key Founding of South China Sea Branch of State Oceanic Administration (180106).
Numerical Study on the Effect of the Manila Seismic Tsunami on the Guangdong Coast——The Nonlinear Effects of Tides and Tsunamis
CAO Yonggang,LIU Changjian,LIU Tongmu,FENG Yanqing,LIU Yuqiang,LIAO Shizhi,CHEN Yizhan
Abstract:
The coupling numerical model between astronomical tide and tsunamis was built based on the data of the COMCOT model, which was verified by the Japan “3·11” tsunami. The tsunami source of the Manila seismic tsunami was designed and computed to analyze the risk of tsunami which will happen in the Guangdong coast. According to the results, the maximum quantity of water increasing and the time of the tsunami arriving at the Guangdong seacoast were calculated. The coupling simulation between astronomical tide and tsunamis has significant meaning for evaluating the risk and early-warning of tsunamis in the Guangdong coastal area.
Key words:  COMCOT model  Earthquake tsunami  Manila seismic zone  Numerical simulation  Guangdong coast