1. Nielsen, F. G., Hanson, T. D. & Skaare, B., (2006, January). Integrated dynamic analysis of floating offshore wind turbines. In 25th International Conference on Offshore Mechanics and Arctic Engineering, pp. 671-679. [
DOI:10.1115/OMAE2006-92291]
2. Jonkman, J. M., (2009), Dynamics of offshore floating wind turbines-model development and verification, Wind Energy: An International Journal for Progress and Applications in Wind Power Conversion Technology, vol. 12, no. 5, pp. 459-492. [
DOI:10.1002/we.347]
3. Utsunomiya, T., Sato, T., Matsukuma, H. & Yago, K., (2009, January). Experimental validation for motion of a spar-type floating offshore wind turbine using 1/22.5 scale model. In ASME 2009 28th International Conference on Ocean, Offshore and Arctic Engineering, pp. 951-959. [
DOI:10.1115/OMAE2009-79695]
4. Karimirad, M. & Moan, T., (2011), Extreme Dynamic Structural Response Analysis of Catenary Moored Spar Wind Turbine in Harsh Environmental Conditions, Journal of Offshore Mechanics and Arctic Engineering, vol. 133, no. 4, p. 041103. [
DOI:10.1115/1.4003393]
5. Brommundt, M., Krause, L., Merz, K. & Muskulus, M., (2012), Mooring system optimization for floating wind turbines using frequency domain analysis, Energy Procedia, vol. 24, pp. 289-296. [
DOI:10.1016/j.egypro.2012.06.111]
6. Razaghian, A., Seif, M. S. & Tabeshpour, M. R., (2014), Investigation of tendons and TLP behavior in damaged condition, International journal of maritime technology, vol. 9, no. 18, pp. 23-34.
7. Yu, M., Hu, Z. Q. & Xiao, L. F., (2015), Wind-wave induced dynamic response analysis for motions and mooring loads of a spar-type offshore floating wind turbine, Journal of Hydrodynamics, Ser. B, vol. 26, no. 6, pp. 865-874. [
DOI:10.1016/S1001-6058(14)60095-0]
8. Ketabdari,M., Moshayedi, B. and Boreyri, S., (2015), Hydrodynamic analysis of Moored offshore wind turbine in six degrees of freedom at Persian Gulf, 6th International Conference on Offshore Industries. (In Persian)
9. Zhang, D. P., Zhu, K. Q., Jing, B., Yang, R. Z. & Tang, Z. C., (2015, June), Dynamic Analysis of the Mooring System for a Floating Offshore Wind Turbine Spar Platform, International Confrence on Computer Information System AND industrial Applications, vol. 3, no. 3.5, p. 1. [
DOI:10.2991/cisia-15.2015.215]
10. Tavakoli, F., Shafaghat, R. and Alamian, R., (2016), Experimental Study of the Effect of Gyroscope Force on the Stability of Spar Floating Wind Turbines, 18th International Conference on Offshore Industries. (In Persian)
11. Esmaeelpour, K., Shafaghat, R., Alamian, R. & Bayani, R. (2016), Numerical study of various geometries of breakwaters for the installation of floating wind turbines, Journal of Naval Architecture and Marine Engineering, vol. 13, no. 1, pp. 27-37. [
DOI:10.3329/jname.v13i1.22866]
12. Samadi, M. & Hassanabad, M. G., (2017), Hydrodynamic response simulation of Catenary mooring in the spar truss fl oating platform under Caspian Sea conditions, Journal of Ocean Engineering, pp. 241-246. [
DOI:10.1016/j.oceaneng.2017.03.004]
13. Ketabdari, M., Bakhtiari, M., Ghassemi, H., (2018), Numerical analysis of the effects of mooring line configurations on the dynamic response of a truss spar platform in sea waves, Iranian Journal of Marine Technology, vol. 5, no. 2, pp. 53-62. (In Persian)
14. Ghafari, H. & Dardel, M., (2018), Parametric study of catenary mooring system on the dynamic response of the semi-submersible platform, Journal of Ocean Engineering, vol. 153, pp. 319-332. [
DOI:10.1016/j.oceaneng.2018.01.093]
15. Nosratzadeh, M. A., Ettefagh, M. M., Hajinezhad Dehkharghani, P., (2019), Investigation of Dynamic Response Changes in TLP Type Floating Wind Turbine with Broken Mooring Lines, Journal of Marine Engineering , vol. 57. (In Persian)
16. Jonkman, J., (2010), Definition of the Floating System for Phase IV of OC3 (No. NREL/TP-500-47535). National Renewable Energy Lab.(NREL), Golden, CO (United States). [
DOI:10.2172/979456]
17. Hong, S., Lee, I., Park, S. H., Lee, C., Chun, H. H. & Lim, H. C., (2015), An experimental study of the effect of mooring systems on the dynamics of a SPAR buoy-type floating offshore wind turbine, International Journal of Naval Architecture and Ocean Engineering, vol. 7, no. 3, pp. 559-579. [
DOI:10.1515/ijnaoe-2015-0040]
18. Our offshore wind projects - Our offshore wind projects - equinor.com. [Online]. Available: https://www.equinor.com/en/what-we-do/new-energy-solutions/our-offshore-wind-projects.html. [Accessed: 09-Mar-2019].
19. Wichers, J., (2013), Guide to Single Point Moorings, WMooring.
20. Veritas, D. N., (2010), Offshore standard DNV-OS-E301 position mooring. Det Norske Veritas: Høvik, Norway.
21. Canonsburg, A. D., (2017), Aqwa Reference Manual.
22. Ghaisari, H., Tabeshpour, M. R. and Seif, M. S., (2015), Numerical and Experimental Modeling of Spar Platform, 6th international conference of offshore industries..(In Persian)
23. Faltinsen, O., (1993), Sea loads on ships and offshore structures, vol. 1. Cambridge university press. [
DOI:10.4043/7142-MS]
24. Panahi, R., Yazdan dust, M., (2016), Fatigue analysis of SPM mooring due to lenght of mooring line and direction of wave incident. Iranian Journal of Marine Science and Technology, pp. 11-20. (In Persian)