An Explosively Developing Extratropical Cyclone Associated with the High Wind-Waves along the East Coast of Korea

Heo, K.-Y.; Choi, J.-Y.; Park, K.-S.; Kwon, J.-I.; Min, I.-K., and Ha, T., 2018. Explosively developing extratropical cyclone associated with the high wind-waves along the east coast of Korea. In: Shim, J.-S.; Chun, I., and Lim, H.S. (eds.), Proceedings from the International Coastal Symposium (ICS)...

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Bibliographic Details
Published inJournal of coastal research Vol. 85; no. sp1; pp. 716 - 720
Main Authors Heo, Ki-Young, Choi, Jin-Yong, Park, Kwang-Soon, Kwon, Jae-Il, Min, In-Ki, Ha, Taemin
Format Journal Article
LanguageEnglish
Published Fort Lauderdale Coastal Education and Research Foundation 01.05.2018
COASTAL EDUCATION & RESEARCH FOUNDATION, INC. [CERF]
Allen Press Inc
Subjects
abnormal high waves
Anomalies
Atmospheric sciences
Baroclinic instability
Climate
COASTAL HAZARDS
Coastal zone
Coasts
Cold
Computer simulation
Cyclogenesis
Cyclones
explosive cyclogenesis
Extreme extratropical cyclone
Ground level
Instability
Levels
Mathematical models
Oceans
Potential vorticity
Property damage
Removal
Significant wave height
Significant waves
Simulation
Surface wind
Vorticity
Water vapor
Water vapour
Wave direction
Wave height
Weather
Weather forecasting
Wind speed
Wind waves
Winds
South Korea
Korean Peninsula
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Summary:Heo, K.-Y.; Choi, J.-Y.; Park, K.-S.; Kwon, J.-I.; Min, I.-K., and Ha, T., 2018. Explosively developing extratropical cyclone associated with the high wind-waves along the east coast of Korea. In: Shim, J.-S.; Chun, I., and Lim, H.S. (eds.), Proceedings from the International Coastal Symposium (ICS) 2018 (Busan, Republic of Korea). Journal of Coastal Research, Special Issue No. 85, pp. 716–720. Coconut Creek (Florida), ISSN 0749-0208. An extreme extratropical cyclone struck the northern part of Korea on May 3, 2016 causing significant damage to property on the land due to extreme winds and abnormal high waves in coastal area. The meteorological composite fields for the cyclone show a strong surface wind velocity (up to 45 m s−1) during its mature stage. This study investigated the development mechanisms of an explosive cyclone through numerical simulation and sensitivity experiments using the Advanced Research version of the Weather Research and Forecasting (WRF-ARW) model. The trigger mechanism for the explosive cyclogenesis is the strong baroclinic instability and temperature advection associated with upper-level cut-off low and the interaction of potential vorticity (PV) anomalies between the lower- and upper-level. The efficient placement of the high- and low-level jets forms a favorable environment for its development and transportation of water vapor and the instability energy into the cyclone. The sea-state wave simulation around the Korean Peninsula is obtained using the wave model WAVEWATCHIII (WW3) forced by the 10-m above ground level wind field from the WRF-ARW simulations. The significant wave height and peak wave direction were simulated and wave distribution was analyzed by comparing the removal of the upper-level PV with the doubled. The numerical results using the doubled upper-level PV reproduced well generation of high waves around the Korean Peninsula while not the removal of the upper-level PV.
ISSN:0749-0208
1551-5036
DOI:10.2112/SI85-144.1