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Simulation of the Dynamics of Spar-type Floating Offshore Wind Turbine in the ANSYS Aqwa Environment Extended by the Coefficients of Viscosity Forces Determined on the Basis of RANSE-CFD Analysis

机译：基于RANSE-CFD分析确定的粘度力系数延伸的ANSYS AQWA环境中浮动近海风力涡轮机动力学的仿真

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1 Introduction In recent years, there has been a significant increase in interest in platforms for offshore wind turbines. The transfer of wind energy to sea areas is justified for various reasons. Higher and more stable than on land, wind speeds that are not supported by buildings or green areas allow the installation of more powerful turbines. The size of turbine wings, which in marine conditions may be larger than land-based, also allows for high performance of installed turbines. Lack of public favor for turbines installed near inhabited areas is another factor decisive for displacing them from the mainland.

机译：1引言近年来，在海上风力涡轮机的平台上有显着增加。出于各种原因，风能转移到海域的转移是合理的。比土地上更高，更稳定，建筑物或绿地不支持的风速允许安装更强大的涡轮机。涡轮机翼的大小，在海洋情况下可以大于陆基，也允许安装的涡轮机的高性能。对安装在居住区附近的涡轮机的公众青睐是从内地移位它们的另一个因素决定性。

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《Numerical Towing Tank Symposium》|2020年|228p|共6页
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Ewelina Ciba; Pawel Dymarski;
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中图分类 U661.7-53;
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1. A Novel Dynamics Analysis Method for Spar-Type Floating Offshore Wind Turbine [J] . TIAN Xin-liang, XIAO Jia-ren, LIU Hao-xue, 中国海洋工程（英文版） . 2020,第001期

机译：一种新型动力学分析方法，用于浮动海上风力涡轮机
2. Response analysis and comparison of a spar-type floating offshore wind turbine and an onshore wind turbine under blade pitch controller faults [J] . Etemaddar Mahmoud, Blanke Mogens, Gao Zhen, Wind Energy . 2016,第1期

机译：桨距控制器故障下翼梁式浮式海上风机与陆上风机的响应分析与比较
3. Effects of incident wind/wave directions on dynamic response of a SPAR-type floating offshore wind turbine system [J] . Guoqin Lyu, Huiqin Zhang, Jiachun Li 力学学报：英文版 . 2019,第005期

机译：风/波入射方向对SPAR型海上浮式风力发电机系统动力响应的影响
4. Simulation of the Dynamics of Spar-type Floating Offshore Wind Turbine in the ANSYS Aqwa Environment Extended by the Coefficients of Viscosity Forces Determined on the Basis of RANSE-CFD Analysis [C] . Ewelina Ciba, Pawel Dymarski Numerical Towing Tank Symposium . 2020

机译：基于RANSE-CFD分析确定的粘度力系数延伸的ANSYS AQWA环境中浮动近海风力涡轮机动力学的仿真
5. Dynamic analysis of floating offshore wind turbines using the FAST simulation tool [D] . Tumewu, Yehezkiel. 2016

机译：快速仿真工具浮动近海风力涡轮机的动态分析
6. Unsteady aerodynamic analysis for offshore floating wind turbines under different wind conditions [O] . B. F. Xu, T. G. Wang, Y. Yuan, -1

机译：不同风况下海上漂浮式风力发电机的非定常空气动力学分析
7. Response analysis and comparison of a spar-type floating offshore wind turbine and an onshore wind turbine under blade pitch controller faults [O] . Etemaddar, Mahmoud, Blanke, Mogens, Gao, Zhen, 2016

机译：叶片式桨距控制器故障下翼梁式浮式海上风力发电机组与陆上风力发电机组的响应分析与比较
8. Calibration and Validation of a Spar-Type Floating Offshore Wind Turbine Model using the FAST Dynamic Simulation Tool. [R] . Browning, J. R., Jonkman, J., Robertson, A., 2012

机译：使用FasT动态模拟工具校准和验证spar型浮式海上风力发电机模型。

Simulation of the Dynamics of Spar-type Floating Offshore Wind Turbine in the ANSYS Aqwa Environment Extended by the Coefficients of Viscosity Forces Determined on the Basis of RANSE-CFD Analysis

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