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Citation:
 Yasunori Nihe and Hiroyuki Fujioka.Aerodynamic Effects on TLP Type Wind Turbines and Predictions of the Electricity They Generate[J].Journal of Marine Science and Application,2011,(2):139-149.
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Aerodynamic Effects on TLP Type Wind Turbines and Predictions of the Electricity They Generate

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Title:
Aerodynamic Effects on TLP Type Wind Turbines and Predictions of the Electricity They Generate
Author(s):
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Affilations:
Author(s):
Yasunori Nihe and Hiroyuki Fujioka
1. Department of Aerospace and Marine System Engineering, Osaka Prefecture University, 599-8531, Japan 2. Department of Ocean Technology, Policy and Environment, The University of Tokyo, 277-8561, Japan
Keywords:
tension leg platform (TLP) offshore wind turbine tank test in coexisting wave-wind condition annual amount of electricity generated
分类号:
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DOI:
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Abstract:
This research proposes a new offshore wind energy generation system that uses a tension leg platform (TLP) and describes experiments performed on a TLP type wind turbine in both waves and wind. The following conclusions can be made from the results of this research. 1) In the case of coexisting wave-wind fields, the wind effect stabilizes the pitch motion. 2) The wind effect decreases vibration of the mooring lines when waves and wind coexist. In particular, the springing (2nd or 3rd order force) also decreases in this field. 3) It can be estimated that the reduction in the rate of generation of electrical power can be up to about 6% as a result of the heel angle. In addition, the annual amount of electricity generated was estimated along with the utilization factor based on the experimental results.

References:

Kang DH, Roh JB, Choi HS, Shin HS (2004). A feasibility study for mini tension leg platform based on motion characteristics in waves. The 2nd Asia-Pacific Workshop on Marine Hydrodynamics.
Suzuki H, Ashida T, Enomoto K, Yago K, Duan F (2005). Optimization of spar type floating wind turbine. Proceedings of Civil Engineering in the Ocean, Japan Society of Civil Engineers, 21, 1047-1052.
Yago K, Ohkawa Y, Suzuki H, Sawai T (2003). A basic study on the floating wind power system. 17th Ocean Engineering Symposium, The society of Naval Architects of Japan, 127-134.

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Last Update: 2011-05-04