Offshore Floating Wind Turbines and Related Dynamic Problems

ZHU Ren-chuan; MIAO Guo-ping; FAN Ju; LIU Hua

doi:10.3879/j.issn.1000-0887.2013.10.011

Volume 34 Issue 10

Turn off MathJax

Article Contents

Article Navigation > Applied Mathematics and Mechanics > 2013 > 34(10): 1110-1118

ZHU Ren-chuan, MIAO Guo-ping, FAN Ju, LIU Hua. Offshore Floating Wind Turbines and Related Dynamic Problems[J]. Applied Mathematics and Mechanics, 2013, 34(10): 1110-1118. doi: 10.3879/j.issn.1000-0887.2013.10.011

Citation:

PDF( 800 KB)

Offshore Floating Wind Turbines and Related Dynamic Problems

doi: 10.3879/j.issn.1000-0887.2013.10.011

School of Naval Architecture, Ocean and Civil Engineering, Shanghai Jiao Tong University, Shanghai 200240, P.R.China

Funds: The National Basic Research Program of China (973 Program)(2014CB046200)

Received Date: 2013-07-18
Rev Recd Date: 2013-09-26
Publish Date: 2013-10-15

Abstract

Abstract

As one kind of green energy, ocean wind power is plentiful in deep sea, and more and more offshore wind power plants are being on to be constructed in the sea water of depths over one hundred meters. While the offshore floating wind turbine system was working, the wind turbine, floating foundation and mooring system will affect each other through coupling with wind, wave and current actions. The various offshore floating wind turbine systems and the corresponding environmental loads were briefly discussed. It was be a difficult key problem for the future to conduct comprehensive analysis of aerodynamic-hydrodynamic-service system-structure for the coupling effects of the offshore floating wind turbine system and make full consideration of environmental flow field and dimension characteristics of the system structure, there for exploration and sythesis of suitable theories and approaches should be done in advance.
- ocean wind power,
- offshore floating wind turbine,
- coupling,
- dynamics

FullText(HTML)

References(19)

References

[1]	缪国平朱仁传程建生王景全. 海上风电场建设与海洋工程装备研发中若干水动力学关键技术问题[J]. 上海造船 200977(1): 19-25.(MIAO Guo-ping ZHU Ren-chuan CHENG Jian-sheng WANG Jing-quan. Some hydrodynamic problems of offshore wind power plants[J].Journal Shanghai Shipbuilding 2009,77(1): 19-25.(in Chinese))
[2]	Jonkman J Butterfield S. Definition of a 5-MW reference wind turbine for offshore system development[R]. Technical Report. NREL/TP-200-38060. Feb 2009.
[3]	Tong K. Technical and economical aspects of a floating offshore windfarm[C]// Proceedings of the OWEMES Seminar. Rome Feb 1994.
[4]	Delpeche K. Hydrodynamic and experimental analysis on a novel hybrid offshore renewable structure[C]//28th International Conference on Ocean Offshore and Arctic Engineering. Hawaii 2009.
[5]	Roddier D Cermelli C Weinstein A. WindFloat: a floating foundation for offshore wind turbines[C]//28th International Conference on Ocean Offshore and Arctic Engineering.Hawaii 2009.
[6]	阮胜福. 海上风电浮式基础动力响应研究[D]. 硕士论文. 天津大学 2010.(RUAN Shen-fu. Study on the dynamic response for floating foundation of offshore wind turbine[D]. Master thesis. Tianjing University 2010.(in Chinese))
[7]	JB/T10300-2001. 风力发电机组设计要求[S].北京: 中国机械工业联合会 2001: 4-11.(JB/T10300-2001. Wind Turbine Design Requirments[S].Beijing: China Machinery Industry Federation 2001: 4-11. (in Chinese))
[8]	风力发电机组规范[S]. 北京：中国船级社 2008: 3-10.(Wind Turbine Specification [S].Beijing: China Classification Society 2008: 3-10.(in Chinese))
[9]	YE Xiao-rong SHENG Qi-hu ZHANG Liang. A three dimensional numerical method to study aerodynamic performance of horizontal axis wind turbine[C]// 20th International Society of Offshore and Polar Engineers. Beijing China 2010: 735-740.
[10]	Knauer A Hanson T D Skaare B. Offshore wind turbine loads in deepwater environment[C]//EWEC 2006. Athens 2006.
[11]	刘应中缪国平. 船舶在波浪上的运动理论[M].上海:上海交通大学出版社 1986. (LIU Ying-zhong. MIAO Guo-ping.Ship Motion in Waves[M].Shanghai: Shanghai Jiaot Tong University Press 1986. (in Chinese))
[12]	Chen X H. Studies on dynamic interaction between deep-water floating structures and their mooring/tendon systems[D]. PhD thesis. A & M University Texas 2002.
[13]	袁梦范菊缪国平朱仁传. 非线弹性系泊缆系泊性能研究[J]. 上海交通大学学报 201044(6): 49-56.(YUAN Meng FAN Ju MIAO Guo-ping ZHU Ren-chuan. Mooring performance of nonlinear elastic mooring lines[J]. Journal of Shanghai JiaoTong University,2010,44(6): 49-56.(in Chinese))
[14]	唐耀. Spar型浮式风机平台动力响应分析[D].硕士学位论文. 上海交通大学 2013.(TANG Yao. Dynamic response analysis of a spar type floating wind turbine platform[D]. Mastermsc thesis. Shanghai Jiao Tong University 2013.(in Chinese))
[15]	袁梦. 深海浮式结构物系泊系统的非线性时域分析[D].博士学位论文. 上海交通大学 2011.(YUAN Meng. Time domain nonlinear analysis of the mooring system of deep-water floating structures[D]. PhD thesis. Shanghai Jiaotong University 2011.(in Chinese))
[16]	Withee J E. Fully coupled dynamic analysis of a floating wind turbine system[D]. PhD thesis. Massachusetts Institute of Technology 2004.
[17]	Lee K H Sclavounos P Wayman E. Floating wind turbines[C]//20th Workshop on Water Waves and Floating Bodies Spitsbergen Norway. June 2005.
[18]	Wayman E. Coupled dynamics and economic analysis of floating wind turbine systems[D]. PhD. Massachusetts Institute of Technology 2006.
[19]	Wayman E Sclavounos P. Coupled dynamic modeling of floating wind turbine systems[C]// Offshore Technology Conference. Texas USA 2006.