Offshore Wind Turbine Wake Characteristics Analysis Using
Single-Double Gaussian Model Based on Wind Lidar
Measurements

Abstract

Abstract: When the air flow passes through the sweep plane of the wind turbine, the wake effect will be produced at the downstream of the wind turbine, which has different effects on the generation efficiency and fatigue load of the wind turbine. Based on coherent Doppler wind lidar, an all-weather wind field detection experiment was carried out in an offshore wind farm in Jiangsu Province. Due to the double Gaussian distribution of wind speed on the vertical section of the wind turbine wake, the traditional single Gaussian fitting algorithm has a large calculation error and can′t reflect the wind speed change law of real flow field near the wind turbine. An improved single-double Gaussian model fitting algorithm is proposed and used to analyze the wake width, velocity deficit and wake length of the target wind turbine. The feasibility and accuracy of the single-double Gaussian fitting algorithm for the fitting of the wake lateral wind speed are verified.

Key words: Doppler wind lidar, wind turbine, wake effect, Gaussian model fitting algorithm

CLC Number:

TN958
P407

References 20

	null[1] Jensen N O. A note on wind generator interaction [R]. Technical report from the Risø National Laboratory (Risø-M-2411),
	1983.
[2]	Lissaman P B S. Energy effectiveness of arbitrary arrays of wind turbines [J]. Journal of Energy, 1979, 3(6): 323-328.
[3]	Ainslie J F. Calculating the flowfield in the wake of wind turbines [J]. Journal of Wind Engineering & Industrial Aerodynamics,
19	88, 27(1-3): 213-224.
[4]	Wu Yangyang. Applicability analysis of empirical wake model based on wind data [J]. Zhejiang Electric Power, 2017, 36(11):
92	-98.
	吴阳阳. 基于测风数据的经验尾流模型适用性分析研究 [J]. 浙江电力, 2017, 36(11): 92-98.
[5]	Zhang Xiaodong, Zhang Zhen. Research of semi-empirical wind turbine wake models [J]. Acta Energiae Solaris Sinica, 2014,
35	(1): 101-105.
	张晓东, 张镇. 半经验风力机尾流模型的研究 [J]. 太阳能学报, 2014, 35(1): 101-105.
[6]	Yang Xiangsheng, Zhao Ning, Tian Linlin, et al. Wake numerical simulation based on the Park-Gauss model and considering
	atmospheric stability [J]. Acta Energiae Solaris Sinica, 2016, 37(9): 2224-2229.
	杨祥生, 赵宁, 田琳琳, 等. 基于 Park-Gauss 模型的风场尾流数值模拟 [J]. 太阳能学报, 2016, 37(9): 2224-2229.
[7]	Nedjari H D, Guerri O, Saighi M. CFD wind turbines wake assessment in complex topography [J]. Energy Conversion &
	Management, 2017, 138 (APR.): 224-236.
[8]	Hogstr ¨ om U, Asimakopoulos D N, Kambezidis H, ¨ et al. A field study of the wake behind a 2 MW wind turbine [J]. Atmospheric
	Environment, 1988, 22(4): 803-820.
[9]	Krishnamurthy R, Reuder J, Svardal B, et al. Offshore wind turbine wake characteristics using scanning Doppler lidar [J].
	Energy Procedia, 2017, 137: 428-442.
[10]	Feng C, Liu B, Wu S, et al. Characterization of a wind turbine wake evolving over an intertidal zone performed with dual-lidar
	observations [J]. Atmospheric Measurement Techniques Discussion, 2017. Doi: 10.5194/amt-2017-23.
[11]	Yu Xiaoqing, Wu Songhua. Analysis of characteristics of onshore turbine wake in Xinjiang [J]. Journal of Atmospheric and
	Environmental Optics, 2019, 14(4): 250-258.
	于晓庆, 吴松华. 新疆地区陆上风电场风机尾流特征分析 [J]. 大气与环境光学学报, 2019, 14(4): 250-258.
[12]	Magnusson M. Near-wake behaviour of wind turbines [J]. Journal of Wind Engineering and Industrial Aerodynamics, 1999,
80	(1-2): 147-167.
[13]	Wu S, Zhai X. Lidar investigation of wind turbine wake characteristics under different surface roughness [C]. Optics & Photonics for Energy & the Environment. 2016.
[14]	Aitken M L, Banta R M, Pichugina Y L, et al. Quantifying wind turbine wake characteristics from scanning remote sensor data
[J]	Journal of Atmospheric & Oceanic Technology, 2014, 31(4): 765-787.
[15]	Wu S H, Yin J, Liu B, et al. Characterization of turbulent wake of wind turbine by coherent Doppler lidar [C]. Lidar Remote
	Sensing for Environmental Monitoring XIV, International Society for Optics and Photonics, 2014.
[16]	Wu S, Liu B, Liu J, et al. Wind turbine wake visualization and characteristics analysis by Doppler lidar [J]. Optics Express,
20	16, 24(10): A762

Offshore Wind Turbine Wake Characteristics Analysis Using Single-Double Gaussian Model Based on Wind Lidar Measurements

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