Evolution of turbulence in a wind turbine flow field with a neutral atmospheric boundary layer and an analysis of the blade root load | |
Li, Deshun1,2,3; Guo, Tao1; Li, Wei1; Hu, Jinsen1; Li, Yinran1,2,3; Li, Rennian1,2,3; Li, Ye4; Hu, Wenrui5 | |
2019-06-15 | |
发表期刊 | Kexue Tongbao/Chinese Science Bulletin |
ISSN | 0023074X |
卷号 | 64期号:17页码:1832-1843 |
摘要 | In this study, a neutral atmospheric boundary layer and wind turbine blades were constructed in a large eddy simulation and actuator line model for conducting a field experiment of a wind turbine. Further, the flow field of the wind turbine was simulated in a neutral atmospheric boundary layer. The evolution of the turbulence in the front and back of the rotor with a neutral atmospheric boundary layer and its correlation with the load were studied by analyzing the continuous wavelets, the spectrum, and the correlation. The results indicate that the coherent structure of the turbulence in the neutral atmospheric boundary layer becomes stronger from one-diameter (1D) front of the rotor plane to 1D back of it. The coherent structure of the turbulence in inflow is affected by the rotation of the rotor. Subsequently, strong small-scale turbulence structures appear in the rotor plane, which are continuously dissipated in the wind direction. The turbulent energy with small scales at 1D back of rotor is feeble, and the turbulence mainly moves on a large scale. The frequency of the small-scale turbulence is approximately 1.82 Hz at the tip, which corresponds to the passing frequency of the blade and is mainly generated because of the rotation of the rotor. The flapwise load of the blade root is high when the turbulent energy is high. The results of wavelet analysis denote that the turbulence structure at the monitoring points has a good relation with the flapwise load of the blade root, and the flapwise load of the blade root of the wind turbine has obvious response to the turbulent structure of the atmosphere. A multi-resolution analysis of two points at the center and tip of the rotor and the flapwise load of the blade root denotes that the low-frequency turbulent structure at the center of the rotor (B3-B6 frequency band) is dependent on the low-frequency flapwise load of the blade root, whereas the high-frequency turbulent structure (B1-B2 frequency band) has no obvious corresponding relation with the flapwise load of the blade root. The high-frequency turbulent structure at the tip (B1-B2 frequency band) is related to the high-frequency flapwise load of the blade root, whereas the low-frequency turbulent structure (B3-B6 frequency band) has no obvious corresponding relation with the flapwise load of the blade root. Therefore, the low-frequency turbulence structure significantly influences the low-frequency band of the flapwise load of the blade root, whereas the high-frequency turbulence structure significantly influences the high-frequency band of the flapwise load of the blade root. When compared with the high-frequency turbulent structure at the blade root, the highfrequency turbulent structure has a higher frequency and a higher energy at the blade tip, and its influence on the highfrequency band of the flapwise load of the blade root is more obvious, exhibiting a consistent regular periodic variation. © 2019, Science Press. All right reserved. |
关键词 | Actuators Atmospheric boundary layer Atmospheric structure Atmospheric turbulence Correlation methods Flow fields Large eddy simulation Spectrum analysis Turbomachine blades Wind turbines Corresponding relations High frequency bands Line models Small scale turbulence Turbulence structures Turbulent structures Wind turbine blades Wind turbine loads |
DOI | 10.1360/N972019-00213 |
收录类别 | EI ; ESCI |
语种 | 中文 |
WOS研究方向 | Science & Technology - Other Topics |
WOS类目 | Multidisciplinary Sciences |
WOS记录号 | WOS:000496454500009 |
出版者 | Chinese Academy of Sciences |
EI入藏号 | 20193107246071 |
EI主题词 | Atmospheric thermodynamics |
EI分类号 | 443.1 Atmospheric Properties - 615.8 Wind Power (Before 1993, use code 611 ) - 631 Fluid Flow - 631.1 Fluid Flow, General - 732.1 Control Equipment - 921 Mathematics - 922.2 Mathematical Statistics |
来源库 | Compendex |
分类代码 | 443.1 Atmospheric Properties - 615.8 Wind Power (Before 1993, use code 611 ) - 631 Fluid Flow - 631.1 Fluid Flow, General - 732.1 Control Equipment - 921 Mathematics - 922.2 Mathematical Statistics |
引用统计 | 无
|
文献类型 | 期刊论文 |
条目标识符 | https://ir.lut.edu.cn/handle/2XXMBERH/114916 |
专题 | 新能源学院 兰州理工大学 能源与动力工程学院 |
通讯作者 | Li, Yinran; Li, Rennian; Hu, Wenrui |
作者单位 | 1.Lanzhou Univ Technol, Sch Energy & Power Engn, Lanzhou 730050, Gansu, Peoples R China; 2.Gansu Prov Technol Ctr Wind Turbines, Lanzhou 730050, Gansu, Peoples R China; 3.Key Lab Fluid Machinery & Syst Gansu Prov, Lanzhou 730050, Gansu, Peoples R China; 4.Shanghai Jiao Tong Univ, Sch Naval Architecture Ocean & Civil Engn, Shanghai 200240, Peoples R China; 5.Chinese Acad Sci, Inst Mech, Beijing 100080, Peoples R China |
第一作者单位 | 能源与动力工程学院 |
通讯作者单位 | 能源与动力工程学院 |
第一作者的第一单位 | 能源与动力工程学院 |
推荐引用方式 GB/T 7714 | Li, Deshun,Guo, Tao,Li, Wei,et al. Evolution of turbulence in a wind turbine flow field with a neutral atmospheric boundary layer and an analysis of the blade root load[J]. Kexue Tongbao/Chinese Science Bulletin,2019,64(17):1832-1843. |
APA | Li, Deshun.,Guo, Tao.,Li, Wei.,Hu, Jinsen.,Li, Yinran.,...&Hu, Wenrui.(2019).Evolution of turbulence in a wind turbine flow field with a neutral atmospheric boundary layer and an analysis of the blade root load.Kexue Tongbao/Chinese Science Bulletin,64(17),1832-1843. |
MLA | Li, Deshun,et al."Evolution of turbulence in a wind turbine flow field with a neutral atmospheric boundary layer and an analysis of the blade root load".Kexue Tongbao/Chinese Science Bulletin 64.17(2019):1832-1843. |
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