Browse > Article

A Study on the Conditions Analysis and Assessment of Supporting Port for Offshore Wind Farm : Focusing on Ports in Gyeongsangnam-do  

Yang, Hang-Jin (경상대학교 경영대학 국제통상학과)
Chiang, Bong-Gyu (경상대학교 경영대학 국제통상학과 (경영경제연구소))
Publication Information
Journal of Korea Port Economic Association / v.35, no.4, 2019 , pp. 85-106 More about this Journal
Abstract
Offshore wind power is a representative renewable energy source and a rapidly growing industry. In Gyeongsangnam-do, offshore wind farms of 461.9MW are being pushed for in the Yokji island and are expected to expand further to over 1GW in the future. Accordingly, ports supporting the storage, assembly, transportation, and installation of offshore wind power equipment are expected to play an important role in the smooth progress of the offshore wind farm development project. Based on previous research and cases in major countries,this study prepared criteria for assessment of ports supporting offshore wind farmsand evaluated ports in Gyeongsangnam-do, which are linked to Yokji island offshore wind farms. The assessment criteria have been subdivided into distance from the offshore wind farm, port entry and exit restrictions, navigational areas, fishery rights factors, additional costs, berth length, depth of berth, size of the port yard, port berth bearing pressure, interference with other cargo, a civil appeal, and relevant industrial aggregation. The ports of Tongyeong, Samcheonpo, Kohyun, Masan, and Jinhae in Gyeongsangnam-do were selected and evaluated. As a result, the port of Tongyoung was superior in terms of distance from the Yokji island offshore wind farm. The ports of Samcheonpo, Masan, and Jinhae were evaluated as excellent in other criteria such as berth length, depth of berth, and so on. This study is expected to be used as a source of basic data for offshore wind power companies and policymakers to select and evaluate the supporting ports of offshore wind farms.
Keywords
Offshore Wind Farm; Supporting Port; Ports in Gyeongsangnam-do; Assessment Criteria;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Ahn, D., Shin, S. C., Kim, S. Y., Kharoufi, H. and Kim, H. C.(2017), Comparative evaluation of different offshore wind turbine installation vessels for Korean west-south wind farm, International Journal of Naval Architecture and Ocean Engineering, 9, 45-54.   DOI
2 Elkington, C., Blatiak, A. and Ameen, H.(2014), Assessment of Ports for Offshore Wind Development in the United States, GL Garrad Hassan. 1-153.
3 IEA(2018), Renewables Information: Overview (2018 edition), 1-12.
4 Kaiser, M. J. and Snyder, B.(2010), Offshore Wind Energy Installation and Decommissioning Cost Estimation on the U.S. Outer Continental Shelf, Energy Research Group, LLC, Baton Rouge, LA, USA, 1-230.
5 Kaiser, M. J. and Snyder, B.(2013), Modelling offshore wind installation costs on the US outer continental shelf, Renewable Energy 50, 676-691.   DOI
6 Kinetik Partners(2011), Analysis of Maryland Port Facilities for Offshore Wind Energy Services, 1-99.
7 Musial, W., Beiter, P., Schwabe, P., Tian, T,. Stehly, T. and Spitsen, P.(2017), 2016 Offshore Wind Technologies Market Report, U.S. Department of Energy, 74-81.
8 Sarker, B. R. and Faiz, T. I.(2017), Minimizing transportation and installation costs for turbines in offshore wind farms, Renewable Energy 101, 667-678.   DOI
9 TETRA TECH EC, INC(2010), Port and Infrastructure Analysis for Offshore Wind Energy Development, Massachusetts Clean Energy Center, 1.1-10.8.
10 WindEurope(2017), A statement from the offshore wind ports, 1-13.
11 WindEurope(2019), Wind energy in Europe in 2018: Trends and statistics, 1-32.
12 Cuxport 홈페이지(www.cuxport.de).
13 Port of Mostyn 홈페이지(www.portofmostyn.co.uk).
14 Port of Willmington 홈페이지(www.portofwilmington.com).
15 Port of Ijmuiden 홈페이지(www.zeehaven.nl).
16 ADP 홈페이지(www.adp-as.dk).
17 Port of Retterdam 홈페이지(www.portofrotterdam.com).
18 www.4Coffshore.com.
19 고현정(2012), 해상풍력 전용항만 입지선정 평가항목에 관한 연구, 한국항만경제학회지, Vol.28, No.3, 27-44.
20 강종호(2012), 양식수산물의 증산, 세계 식량위기의 해법인가?, 월간 KMI수산동향, 35-44.
21 국립해양조사원 홈페이지(www.khoa.go.kr)
22 경남도민신문, 통영 해상풍력 실증단지 추진 순항, 2019.4.22. 기사
23 박두선.이청환.최경훈.박계각(2017), 중량물 물류 실태 분석 및 개선 방안에 관한 연구, 한국항만경제학회지 Vol.33, No3, 35-52
24 경상남도 항만시설 운영세칙(2018.12.14.개정)
25 마산항 항만시설 운영세칙(2019.1.15.개정).
26 맹준호.선효성.주용준.조범준.임오정.서재인(2012), 조력 및 해상풍력사업 환경평가 방안 연구 II. 해상풍력발전사업, 한국환경정책.평가연구원, 12-13.
27 산업통상자원부(2017.12.20.), 재생에너지 3020 이행계획(안), 1-13.
28 산업통상자원부 및 관계부처 합동(2019.4.4.), 재생에너지산업 경쟁력 강화 방안, 1-12.
29 산업통상자원부 전기위원회, 3MW초과 발전사업허가관리 대장 및 회의록(www.korec.go.kr).
30 손충렬 외 8인(2010), 해상풍력발전, 아진.
31 이강인.김민경(2013), 전라북도 해상풍력산업 육성 기획 연구, 전북발전연구원, 1-134.
32 이동욱.김도형(2014), 해상풍력발전기의 시공 Process에 관한 연구, 대한토목학회 학술대회 발표자료, 1543-1544.
33 이종필.김찬호.최나영환.박상원(2018), 해상풍력클러스터 조성을 위한 항만 및 배후단지 활용방안 연구, 한국해양수산개발원, 1-144.
34 조상필(2014), 에너지 공기업과 연계한 전남지역 해상풍력거점 조성방안, 전남발전연구원, 138-206.
35 조성우.박명섭.한낙현(2013), 군산항의 해상풍력 지원항만으로서의 역할 및 전략에 관한 연구, 무역학회지 제38권 제2호, 126-127.
36 중앙예선운영협의회(2019.1), 예선사용요율표.
37 한국개발연구원(2009), 새만금 풍력산업 클러스터 조성사업, 2009년도 예비타당성조사 보고서, 1-75.
38 한국에너지기술평가원(2013), 해상풍력개발 기반조성 연구, 164.
39 해양수산부(2016), 공해성 항만산업개선 타당성 조사용역 보고서, 95-409
40 한국에너지기술평가원(2015), 해상풍력 단지개발 가이드북, 1-218.