과제정보
This work was supported by Korean Institute of Energy Technology Evaluation and Planning (KETEP) and the Ministry of Trade, Industry & Energy (MOTIE) of Korea (No. 20203030020230).
참고문헌
- Beiter, P., Musial, W., Kilcher, L., Maness, M., & Smith, A. ( 2017). An Assessment of the Economic Potential of Offshore Wind in the United States from 2015 to 2030 (Technical Report NREL/TP-6A20-67675). National Renewable Energy Laboratory. Retrieved from https://www.nrel.gov/docs/fy17osti/67675.pdf
- Benveniste, G., Lerch, M., Prada, M., Kretschmer, M., Berque, J., Lopez, A., & Perez, G. (2016). LIFES50+ D2.2: LCOE Tool Description, Technical and Environmental Impact Evaluation Procedure. European Union. Retrieved from https://ec.europa.eu/research/participants/documents/downloadPublic?documentIds=080166e5ad5562e8&appId=PPGMS
- Bjerkseter, C., & Agotnes, A. (2013). Levelised Costs of Energy for Offshore floating Wind Turbine Concepts (Master's Thesis). Norwegian University of Life Sciences, As, Norway.
- Bulder, B.H., Swamy, S.K., & Warnaar, P.M.J. (2021). Pathways to Potential Cost Reductions for Offshore Wind Energy (TNO report TNO 2020 R11926). Topsector Energie. Retrieved from https://www.topsectorenergie.nl/sites/default/files/uploads/Wind%20op%20Zee/Documenten/20210125_RAP_Pathways_to_potential_cost_reduction_offshore_wind_energy_F03.pdf
- Choi, Y.S., Ju, H.C., & Won, D.K. (2019). 국내외 균등화발전비용(LCOE) 산출방법 사례 분석 [Case Analysis of Domestic and Foreign Levelized Cost of Electricity (LCOE) Calculation Method]. Korea Electric Power Corporation Planning Division. Retrieved from http://kepcocommunication.com/006/down/13.pdf
- DNV GL. (2020). Floating Wind: The Power to Commercialize, Insights and Reasons for Confidence. Norway. Retrieved from https://www.energiesdelamer.eu/wp-content/uploads/2020/12/03_12-020_DNV_GL_Floating_Wind_The_Power_to_Commercialize_FINAL-compresse.pdf
- Equinor. (n.d.). The Future of Offshore Qind is Afloat. Retrieved from https://www.equinor.com/en/what-we-do/floating-wind.html
- Equinor. (2020). Equinor and ORE Catapult Collaborating to Share Hywind Scotland Operation Data. Retrieved from https://www.equinor.com/en/news/2019-11-28-hywind-scotland-data.html
- European Wind Energy Association (EWEA). (2016). Balancing Responsibility and Costs of Wind Power Plants. Retrieved from https://windeurope.org/fileadmin/files/library/publications/position-papers/EWEA-position-paper-balancing-responsibility-and-costs.pdf
- Benveniste, G., Lerch, M., Prada, M, D., Kretschmer, M., Berque, J., Lopez, A., & Perez, G., (2016). LIFES50+ D2.2: LCOE Tool Description, Technical and Environmental Impact Evaluation Procedure (Ref. Ares(2016)5798062). IREC.
- Harries, T., & Grace, A. (2015). Floating Wind: Buoyant Progress, Wind-Research Note. Bloomberg-New Energy Finance.
- Hundleby, G., Freeman, K., Logan, A., & Frost, C. (2017). Floating Offshore: 55 Technology Innovations That Will Have Greater Impact on Reducing the Cost of Electricity from European Floating Offshore Wind Farms. KiC InnoEnergy and BVG Associates.
- IRENA. (2019). Future of Wind: Deployment, Investment, Technology, Grid Integration and Socio-Economic Aspects (A Global Energy Transformation paper). Abu Dhabi: International Renewable Energy Agency. Retrieved from https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2019/Oct/IRENA_Future_of_wind_2019.pdf
- Jame, R., & Costa Ros, M. (2015). Floating Offshore Wind: Market and Technology Review. UK: Carbon trust. Retrieved from https://prod-drupal-files.storage.googleapis.com/documents/resource/public/Floating%20Offshore%20Wind%20Market%20Technology%20Review%20-%20REPORT.pdf
- Jang, H.S. (2019). 편익이전 기법을 활용한 간헐성 전원의 계통비용 추정연구 [A Study on Estimating System Cost of Intermittent Power Supply Using Benefit Transfer Technique]. Korea Energy Economics Institute.
- Jung, J, H., & Lee, S, J. (2020). 부유식 해상풍력 추진 현황 및 기술개요 [Enforcement Situation of Floating Offshore Wind Power and Technology Overview]. Korea Electric Power Corporation. Retrieved from http://kepcocommunication.com/003/down/11.pdf
- Korea Energy Agency (2020). New & Renewable Energy White Paper (11-1410000-001321-11). Korea.
- Korea Energy Agency Renewable Energy Center. (n.d.). 공급의무화 (RPS) [Renewable Energy Portfolio Standard]. Retrieved from https://www.knrec. or.kr/business/rps_guide.aspx
- Korea Energy Economics Institute. (2019). World Energy Market Insight, 19(12), 35-36. Retrieved from http://www.keei.re.kr/keei/download/WEMI1912.pdf
- Korea Electric Power Corporation. (2018). 균등화 발전원가 해외사례 조사 및 시사점 분석 [A Strudy on Oversea Cases of Levelized Electricity Cost].
- Korea Institute of Energy Research. (2015). Korea New and Renewable Energy Resource Atlas (2nd ed.). Retrieved from http://www.kier-solar.org/pdf/getFile.do?type=WIND
- Lee, C.Y. (2017). 태양광 원가분석을 통한 균등화 비용 [International Comparative Analysis of Equalization Costs through Solar Power Cost Analysis]. Korea Energy Economics Institute.
- Lee, G. T., & Kim, K. H., (2020). 재생에너지 공급확대를 위한 중장기 발전단가(LCOE) 전망 시스템 구축 및 운영 [Mid- to Long-Term Power Generation Unit Price Forecast for Expansion of Renewable Energy Supply, System Construction and Operation]. Korea Energy Economics Institute.
- Lee, J., & Zhao, F. (2020). Global Offshore Wind Report 2020. Belgium: Global Wind Energy Council (GWEC). Retrieved from http://www.greenbr.org.cn/cmsfiles/1/editorfiles/files/6484a20699b340e8b16d2da0451de83a.pdf
- Lerch, M. (2019). LIFES50+ D2.8: Expected LCOE for Floating Wind Turbines 10MW+ for 50m+ Water Depth (Ref. Ares (2019)2889481). IREC.
- Ministry of Trade, Industry and Energy (2020). 주민과 함께하고, 수산업과 상생하는 해상풍력 발전 방안 [ Plan for Offshore Wind Power Generation in Collaboration with Local Residents and the Fishing Industry]. Korea.
- Myhr, A., Bjerkseter, C., Agotnes, A., & Nygaard, T.A. (2014). Levelised Cost of Energy for Offshore Floating Wind Turbines in a Life Cycle Perspective. Renewable Energy, 66, 714-728. https://doi.org/10.1016/j.renene.2014.01.017
- OECD Nuclear Energy Agency (OECD NEA). (2018). The Full Cost of Electricity Provision: Extended Summary (NEA No.7437). France. Retrieved from https://www.oecd-nea.org/upload/docs/application/pdf/2019-12/7437-full-costs-sum-2018.pdf
- Offshore Renewable Energy Catapult (OREC). (2019). Guide to an Offshore Wind Farm: Updated and Extended. Retrieved from https://ore.catapult.org.uk/app/uploads/2019/04/BVGA-5238-Guide-r2.pdf
- Offshore Renewable Energy Catapult (OREC). (2021). Floating Offshore Wind: Cost Reduction Pathways to Subsidy Free. Floating Offshore Wind Centre of Excellence. Retrieved from https://ore.catapult.org.uk/wp-content/uploads/2021/01/FOW-Cost-Reduction-Pathways-to-Subsidy -Free-report-.pdf
- Ramboll Group. (n.d.). COREWIND Aims to Teduce Costs for Floating Offshore Wind Turbines. Retrieved from https://ramboll.com/projects/germany/corewind
- Rhodri, J., & Marc, C.R. (2015). Floating Offshore Wind: Market and Technology Review. Prepared for the Scottish Government. Scotland: Carbon Trust. Retrieved fom https://prod-drupal-files.storage.googleapis.com/documents/resource/public/Floating%20Offshore%20Wind%20Market%20Technology%20Review%20-%20REPORT.pdf
- Samadi, S. (2017). The Social Costs of Electricity Generation-Categorising Different Types of Costs and Evaluating Their Respective Relevance. Energies, 10(3), 356. https://doi.org/10.3390/en10030356
- Scottish Government. (n.d.). National Development Programme: ERM Dolphyn Project. Environmental Resources Management Limited. Retrieved fom https://www.transformingplanning.scot/media/1500/083-environmental-resources-management-limited.pdf
- Spearman, D.K., & Strivens, S. (2020). Floating Wind Joint Industry Project - Phase II Summary Report. UK: Carbon Trust. Retrieved from https://prod-drupal-files.storage.googleapis.com/documents/resource/public/FWJIP_Phase_2_Summary_Report_0.pdf
- Song, S.O. (2012). 'REC'를 알아야 RPS가 보인다 [You Need to Know 'REC' to See RPS]. Green Energy Times. Retrieved from http://www.gnetimes.co.kr/news/articleView.html?idxno=19386
- Sun, M.Y. (2020). 해상풍력 산업과 O&M 기술을 통한 진출방안 [Offshore Wind Power Industry and Progression Plan through O&M Technology]. Proceedings of the 7th Online Market Conference on Offshore Plant Service Industry, Korea, 49-72.
- Swedish Wind Energy Association. (2021). Proposal for Reduced Grid Connection Costs for Offshore Wind Power. Retrieved from https://swedishwindenergy.com/press-releases/proposal-for-reduced-grid-connection-costs-for-offshore-wind-power
- Tyler, S., Philipp, B., & Patrick D. (2019). Cost of Wind Energy Review (NREL/TP -5000-7847). US: National Renewable Energy Laboratory. ttps://www.nrel.gov/docs/fy21osti/x78471.pdf
- Valpy, B., Hundleby, G., Freeman, K., Roberts, A. & Logan, A. (2017). Future Renewable Energy Costs: Offshore Wind, 57 Technology Innovations That Will Have Greater Impact on Reducing the Cost of the Electricity from European Offshore Wind Farms. BVG Associates, Inno Energy. Retrieved from https://bvgassociates.com/wp-content/uploads/2017/11/InnoEnergy-Offshore-Wind-anticipated-innovations-impact-2017_A4.pdf
- Weinstein, A. (2014). The WindFloat Journey: Changing the Paradigm Offshore Wind. In 23th WavEC Offshore Renewables Annual Seminar, United States - Portugal: Fostering Transatlantic Growth of Marine Renewables. Retrieved from https://www.wavec.org/contents/files/alla-weinstein-wavec-seminar-2014.pdf
- WindEupore. (2017). Floating Offshore Wind Vision Statement. Retrieved from https://windeurope.org/wp-content/uploads/files/about-wind/reports/Floating-offshore-statement.pdf
- WindEurope. (2018). Floating Offshore Wind Energy: A Policy Blueprint for Europe. Retrieved from https://windeurope.org/wp-content/uploads/files/policy/position-papers/Floating-offshore-wind-energy-a-policy-blueprint-for-Europe.pdf
- Wiser, R., Karen, J., Seel, J., Baker, E., & Hand, M. (2016). Forecasting Wind Energy Costs & Cost Drivers: The View of the World's Leading Experts (LBNL- 1005717). U.S. Department of Energy. Retrieved from https://www.ea-energianalyse.dk/wpcontent/uploads/2020/02/1282_Forecasting-Wind-Energy-Costs-and-Cost-drivers.pdf
- Wiser, R., Rand, J., Seel, J., Beiter, P., Baker, E., Lantz, E., & Giman, P. (2021). Expert Elicitation Survey Predicts 37% to 49% Declines in Wind Energy Costs by 2050. Nature Energy, 6, 555-565. https://doi.org/10.1038/s41560-021-00810-z
- Yoo, J.M. (2018). RPS제도 + FIT제도 = 한국형 FIT제도 [RPS Policy + FIT Policy = Korean FIT Policy]. Retrieved from http://www.energycenter.co.kr/news/articleView.html?idxno=620