1 |
DNV GL. (2015). Offshore Standard - Offshore Mooring Chain (DNVGL-OS-E302).
|
2 |
International Electronical Commission (IEC). (2019a). Wind Energy Generation Systems - Part3-1: Design Requirements for Fixed Offshore Wind Turbines (IEC61400-3-1). Geneva, Switzerland: International Electrotechnical Commission.
|
3 |
International Electronical Commission (IEC). (2019b). Wbind Energy Generation Systems - Part3-2: Design Requirements for Floating Offshore Wind Turbines (IEC61400-3-2). Geneva, Switzerland: International Electrotechnical Commission.
|
4 |
Jonkman, J.M., & Buhl, M.L. (2005). FAST User's Guide (NREL/TP-500-38230). Colorado, USA: National Renewable Energy Laboratory.
|
5 |
Jonkman, J.M., Butterfield, S., Musial, W., & Scott, G. (2009). Definition of a 5-MW Reference Wind Turbine for Offshore System Development (NREL/TP-500-38060). Colorado, USA: National Renewable Energy Laboratory.
|
6 |
Jonkman, J.M. (2010). Definition of the Floating System for PhaseIV of OC3 (NREL/TP-500-47535). Colorado, USA: National Renewable Energy Laboratory.
|
7 |
Korea New & Renewable Energy Center. (2016). 2016 New & Renewable Energy White Paper (Knrec/11-1410000-001321-11). 110-116.
|
8 |
Korea Meteorological Administration (KMA). (2020). Weather Data Opening Portal. Retrieved from https://data.kma.go.kr/cmmn/main.do
|
9 |
Shin, H.K., Yu, Y.J., Pham, T.D., Ahn, H.J., Seo, B.C., & Kim, J.B. (2019). Analysis of Environmental Conditions for the Conceptual Design of a 200 MW Floating Offshore Wind Farm in the East Sea, Korea. Proceedings of ASME 2019 2nd International Offshore Wind Technical Conference, Julian's, Malta. https://doi.org/10.1115/IOWTC2019-7605
DOI
|