TANK TESTING OF A NEW CONCEPT OF FLOATING OFFSHORE WIND TURBINE

被引：0

作者：

Le Boulluec, Marc ^{[1
]}

Ohana, Jeremy ^{[1
]}

Martin, Alexis ^{[2
]}

Houmard, Anne ^{[3
]}

机构：

[1] IFREMER, Plouzane, France

[2] DCNS, Brest, France

[3] Nass & Wind Ind, Lorient, France

来源：

PROCEEDINGS OF THE ASME 32ND INTERNATIONAL CONFERENCE ON OCEAN, OFFSHORE AND ARCTIC ENGINEERING - 2013 - VOL 8 | 2013年

关键词：

D O I：

暂无

中图分类号：

TE [石油、天然气工业]; TK [能源与动力工程];

学科分类号：

0807 ; 0820 ;

摘要：

The WINFLO project (Wind turbine with INnovative design for Floating Lightweight Offshore) aims at the development of competitive floating offshore wind turbines, by a consortium of 3 industrial partners (Nass&Wind Industrie, DCNS and Vergnet SA) and 2 scientific partners (IFREMER and ENSTA Bretagne). The design of the floater is an innovative semi-submersible free floating platform with particular aspects. Classical steps toward the assessment of the hydrodynamic and energy production performance include numerical modeling, model scale tank testing and intermediate or full scale tests at sea. The present study describes the wave tank tests including wind generation compared to some numerical modeling results of the coupled system composed of the support floater and the wind turbine.

引用

下载

页数：8

共 50 条

[21] A quasi-coupled wind wave experimental framework for testing offshore wind turbine floating systems
Feist, C.
Sotiropoulos, F.
Guala, M.
THEORETICAL AND APPLIED MECHANICS LETTERS, 2021, 11 (05)
[22] A scaled wind turbine model-based aerodynamic testing apparatus for offshore floating wind turbines
Lin, Jiahuan
Wang, Yangwei
Duan, Huawei
Liu, Yuanchang
Zhang, Jun
JOURNAL OF MARINE ENGINEERING AND TECHNOLOGY, 2023, 22 (06): : 263 - 272
[23] A quasi-coupled wind wave experimental framework for testing offshore wind turbine floating systems
C.Feist
F.Sotiropoulos
M.Guala
Theoretical & Applied Mechanics Letters, 2021, 11 (05) : 280 - 290
[24] BASELINE DESIGN OF THE DEEP TURBINE INSTALLATION-FLOATING, A NEW FLOATING WIND CONCEPT
Serret, Jordi
Tezdogan, Tahsin
Stratford, Tim
Thies, Philipp R.
Venugopal, Vengatesan
PROCEEDINGS OF THE ASME 38TH INTERNATIONAL CONFERENCE ON OCEAN, OFFSHORE AND ARCTIC ENGINEERING, 2019, VOL 1, 2019,
[25] Floating Offshore Wind Farm Control via Turbine Repositioning: Unlocking the Potential Unique to Floating Offshore Wind
Niu, Yue
Dwivedi, Arpit
Sathiaraj, Joel
Lathi, Parth P.
Nagamune, Ryozo
IEEE Control Systems, 2024, 44 (05) : 106 - 129
[26] STRENGTH ANALYSIS OF NEW FLOATING INFRASTRUCTURE FOR 10 MW OFFSHORE WIND TURBINE
Zhang M.
Zhao W.
Li W.
Shen K.
Yuan W.
Taiyangneng Xuebao/Acta Energiae Solaris Sinica, 2024, 45 (06): : 628 - 636
[27] Review on Dynamics of Offshore Floating Wind Turbine Platforms
Bashetty, Srikanth
Ozcelik, Selahattin
ENERGIES, 2021, 14 (19)
[28] ON MOTION AND HYDROELASTIC ANALYSIS OF A FLOATING OFFSHORE WIND TURBINE
Lamei, Azin
Hayatdavoodi, Masoud
Wong, Carlos
Tang, Bin
PROCEEDINGS OF THE ASME 38TH INTERNATIONAL CONFERENCE ON OCEAN, OFFSHORE AND ARCTIC ENGINEERING, 2019, VOL 10, 2019,
[29] Detecting wake performance of floating offshore wind turbine
Lin, Lin
Wang, Kai
Vassalos, Dracos
OCEAN ENGINEERING, 2018, 156 : 263 - 276
[30] Research on pitch control of floating offshore wind turbine
Yu W.
Ding Q.
Li C.
Hao W.
Han Z.
Taiyangneng Xuebao/Acta Energiae Solaris Sinica, 2021, 42 (01): : 143 - 148

← 1 2 3 4 5 →