Acknowledgement
Grant : 해상풍력 터빈 일괄설치시스템 (MMB) 개발
Supported by : 한국전력공사
References
- Korean Ministry of Trade, 2017, Renewable Energy 3020 Implementation Plan.
- Esteban, M. D., Counnago, B., Loopez-Gutieerrez, J. S., Negro, V. and Vellisco, F., 2015, "Gravity Based Support Structures for Offshore Wind Turbine Generators: Review of the Installation Process," Ocean Engineering, Vol. 110, part A, pp. 281-291. https://doi.org/10.1016/j.oceaneng.2015.10.033
- Karal, P. J., 2015, "Gravity Foundations - the new normal," Offshore Wind Structures 2015, London, UK, 4/14-15.
- Overbeeke, S. and Oever, E., 2017, "Reinforced concrete Gravity Base Foundations, Blyth Project, England," Presentation KIVI, Gouda, Netherland, 11/16
- Jung, M. and Kang, K., 2017, "Floating Stability During Installation of Gravity Base Structures," OMAE 2017, Trondheim, Norway, 6/25-30, OMAE-2017-62287.
- Carbon Trust, 2015, Offshore Wind Industry Review of GBSs.
- Journeee, J. M. J. and Massie, W. W., 2001, Offshore Hydromechanics, Delft University of Technology, Chap. 2.
- Padmanabhan, B. and Ertekin, R. C., 1996, "Setdown of a Catenary-moored Gravity Platform," Marine Structure, Vol. 9, No. 7, pp. 721-741. https://doi.org/10.1016/0951-8339(95)00019-4
- Attari, A., Doherty, P., Reig Amoros, E. and Paulotto, C., 2016, "Design Drivers for Buoyant Gravity-Based Foundations," Wind Energy, Vol. 19, No. 10, pp. 1833-1844. https://doi.org/10.1002/we.1953
- Biran, A. and Pulido, R. L., 2014, Ship Hydrostatics and Stability, Butterworth-Heinemann, second edition, Chap. 2 and 6.
- DNV GL, 2016, Support Structures for Wind Turbines, Appendix G, DNVGL-ST-0126,
- GL Noble Denton, 2015, Guidelines for Concrete Gravity Structure Construction & Installation, 0015/ND,
- Smaling, H., 2014, Hydrodynamic Loading on the Shaft of a Gravity Based Offshore Wind Turbine, Master Thesis, TU Delft, pp. 17-18.
- Van Wijngaarden, M. J. P., 2016, Gravity Based Foundations for Offshore Wind Turbines, Master Thesis, TU Delft, Chap. 5.
- IEC, 2009, Wind Turbines - Part 3: Design Requirements for Offshore Wind Turbines, IEC61400-3.
- Vemula, N. K., de Vries, W., Fischer, T., Cordle, A. and Schmidt, B., 2010, Design Solution for the Upwind Reference Offshore Support Structure, Deliverable D4.2.5 (WP4: Offshore Foundations and Support Structures), Project UpWind
- KEPRI, 2012, Test Bed for 2.5 GW Offshore Wind Farm at Yellow Sea Preliminary Design Basis Report.
- Oh, M., Kim, D., Kim, K. and Kim, S., 2016, "Load and Structural Analysis of an Offshore Wind-Turbine Foundation with Weight Control Functionality," KEPCO Journal on Electric Power and Energy, Vol. 2, No. 3, pp. 453-460. https://doi.org/10.18770/KEPCO.2016.02.03.453
- Kim, B., Pldpradit, P., Bae, K., Kim, Y., Kim, H. and Kim, K., 2017, "Behavior Analysis of PS Concrete Offshore Wind Turbine Structure Considering Soil-pile Interaction," Journal of Wind Energy, Vol. 8, No. 1, pp. 16-25 (in Korean).
- Seo, M., Lee, J. and Ryu, M., 2017, "Analysis of Laterally Loaded Suction Pile Foundation," Journal of Wind Energy, Vol. 8, No. 1, pp. 55-62 (in Korean).