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A Study of Storm Surges Characteristics on the Korean Coast Using Tide/Storm Surges Prediction Model and Tidal Elevation Data of Tidal Stations  

You, Sung-Hyup (Global Environment System Research Division)
Lee, Woo-Jeong (Global Environment System Research Division)
Publication Information
Journal of Korean Society of Coastal and Ocean Engineers / v.22, no.6, 2010 , pp. 361-373 More about this Journal
Abstract
Analysis has been made on the tide/storm surges characteristics near the Korean marginal seas in the 2008 and 2009 years using operational ocean prediction model of the Korea Meteorological Administration(KMA). In order to evaluate its performance, its results were compared with the observed data by tidal stations around Korean Peninsula. The model used in this study predicts very well the characteristics of tide/storm surges near the Korean Peninsula. Simulated storm surges show the evident effects of Typhoons in summer season. The averaged root mean square error(RMSE) of 48 hr forecasting between the modeled and observed storm surges are 0.272 and 0.420 m in 2008 and 2009, respectively. Due to strong sea winds, the highest storm surges heights was found in summer season of 2008, however, in 2009, the high storm surges heights was also found in other seasons. When Typhoon Kalmaegi(2008) and Morokot(2009) approached to Korean Peninsular, the accuracy of model predictions is almost same as annual mean value but the precision accuracy for Typhoon Morakot is lower than of Typhoon Kalmaegi similar to annual results.
Keywords
Tide/Storm Surges; Model; Tidal station; Typhoon;
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Times Cited By KSCI : 12  (Citation Analysis)
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1 강주환, 박선중, 문승록, 윤종태 (2009). 태풍의 특성변화에 따른 경남해역 해일양상 고찰, 한국해안.해양공학회논문집", 21(1), 1-14.   과학기술학회마을
2 You, S. H. and Seo, J. W. (2009). Numerical study of storm surges and tide around Korea using operational ocean model, Marine Geodesy, 32(2), 243-263, DOI : 10.1080/01490410902869656.   DOI   ScienceOn
3 You, S. H. (2010). Predicting Typhoon Induced Storm Surges using the operational ocean forecast system, Terr. Atmos. Ocean. Sci., 21(1), 99-111.   DOI   ScienceOn
4 Matsumoto, K., Takanezawa, T. and Ooe, M. (2000). Ocean tide models developed by assimilating TOPEX/POSEIDON altimetry data into hydrodynamic model: A global model and a regional model around Japan. Journal of Oceanography, 56(5), 567-581.   DOI   ScienceOn
5 Lane, E. M. and Walters, R. A. (2009). Verification of RiCOM for storm surge forecasting, Marine Geodesy, 32(2), 118-132.   DOI   ScienceOn
6 Lane, E. M., Walters, R. A., Gillibrand, P. A. and Uddstorm, M. (2009). Operational forecasting of sea level heights using and unstructured grid ocean model, Ocean Modeling, 28, 88-96.   DOI   ScienceOn
7 Lee, J.-C., Kwon, J.-I., Park, K.-S. and Jun, K.-C., (2008). Calculations of storm surges, Typhoon Maemi, J. of Kor. Soc. of Coast. and Ocean Eng.. 20(1), 93-100.   과학기술학회마을
8 Mellor, G. L. (1998). Users guide for a three dimensional primitive equation, numerial model. Program in Atmospheric and Oceanic Sciences. Princeton University, Princeton, NJ, 41 p.
9 Paradis, D., Ohl, P. and Daniel, P. (2009). Operational storm surges forecasting in an Estuary, Marine Geodesy, 32(2), 166-177.   DOI   ScienceOn
10 Park, K.-S., Lee, J.-C., Jun, K.-C., Kim, S.-I. and Kwon, J.-I. (2009). Development of an operational storm surge prediction system for the Korean Coast, Ocean and Polar Research, 31(4), 369-377.   과학기술학회마을   DOI   ScienceOn
11 Choi, B. H. (1986). Surge hindcast in the East China Sea. Prog. Oceanogr., 17, 177-192, doi: 10.1016/0079-6611(86)90043-1.   DOI   ScienceOn
12 Dube, S. K., Rao, A. D., Sinha, P. C. and Chittibabu, P. (1994). A real time storm surge prediction model for the east coast of India, Proc. Ind. Nat. Sci. Acad. 60, 157-170.
13 Hong, C. H. and Yoon, J. H. (2003). A three-dimensional numerical simulation of Typhoon Holly in the northwestern Pacific Ocean. J. Geophys. Res., 108, 3282, doi: 10.1029/2002JC001563.   DOI
14 Hubbert, G. D., Holland, G. J., Leslie, L. M. and Manton, M. J. (1991). A real-time system for forecasting tropical cyclone storm surges, Weather and Forecasting 6(1), 86-97.   DOI
15 Blain, C. A. and Rogers, E. (1998). Coastal tidal prediction using the ADCIRC-2DDI hydrodynamic finite element model. Formal Report NRL/FR/7322-98-9682, Naval Research Laboratory, Stennis Space Center, MS, 92p.
16 Jelesnianski, C. P., Chen, J. and Shaffer, W. A. (1992). SLOSH: Sea, lake and overland surges from hurricanes. NOAA Technical Report NWS 48. Silver Spring, MD: Dept. of Comm. NOAA.
17 Konishi, T. (1995). An experimental storm surge prediction for the western part of the Inland Sea with application to Typhoon 9119, Papers in Meteor. And Geophys. 46, 9-17.   DOI
18 황진풍 (1971). 한국연안에 있어서 기상 교란에 의한 해면변화 I. 태풍 빌리호(1970년)와 남서해안 이상고조현상, 한국해양학회지, 6(2). 92-98.
19 Blain, C. A., Preller, R. H. and Rivera, A. P. (2002). Tidal prediction using the Advanced Circulation Model (ADCIRC) and a Relocatable PC-based system, Oceanography, 15(1), 77-87.   DOI   ScienceOn
20 차은정, 박윤호, 권혁조 (2008). 2007년 태풍 특징, 대기지, 18(3), 183-197.
21 차은정, 황호성, 양경조, 원성희, 고성원, 김동호, 권혁조 (2009). 2008년 태풍 특징, 대기지, 19(2), 183-198.
22 오임상, 김성일, 봉종헌 (1988). 한국 남해를 통과하는 태풍에 의한 폭풍해일 연구, 한국기상학회지, 24(3), 3072-3084.
23 유승협, 이우정 (2009). 2006-2007년 한반도 인근 폭풍해일 특성. 한국마린엔지니어 링, 33(4), 595-602.   과학기술학회마을
24 유승협, 권지혜, 김정식 (2009). 2006-2007년 해양기상 특성: 해상풍, 대기지, 19(2), 145-154.
25 서경덕, 양영철, 전기천, 이동영 (2009). 경험모의기법을 이용한 한반도 주변 해역에서의 극치해면 분석, 21(3), 254-265.   과학기술학회마을
26 차은정, 이경희, 박윤호, 박종숙, 심재관, 인희진, 유희동, 권혁조, 신도식 (2007). 2006년 태풍 특징과 태풍 예보의 개선방향, 대기지 17(3), 299-314.
27 권석재, 문일주, 이은일 (2008). 속초와 묵호항의 연간 최대해일고의 장기간 변동성에 대한 고찰, 한국해안.해양공학회논문집", 20(6), 564-574.   과학기술학회마을
28 권석재, 박정수, 이은일 (2009). 연간 최대해일고 변동의 일반화 극치분포 적용 연구, 한국해안.해양공학회논문집", 21(3), 241-253.   과학기술학회마을
29 국립기상연구소 (2008). 전지구 해양기상 모니터링 시스템 개발.
30 오임상, 김성일 (1990). 한국 근해의 폭풍해일 수치 시뮬레이션, 한국해양학회지, 25(4), 161-181.
31 정신택, 김정대, 고동휘, 윤길림 (2008). 한국 연안 최극 고조위의 매개변수 추정 및 분석, 한국해안.해양공학회지", 20(5), 482-490.   과학기술학회마을