Infrared and Laser Engineering, Volume. 49, Issue 8, 20200228(2020)
Design and test of laser wind measurement system for yaw control of wind turbine
[2] M Rahman, Z C Ong, W T Chong. Performance enhancement of wind turbine systems with vibration control: A review. Renewable and Sustainable Energy Reviews, 51, 43-54(2015).
[4] N Marathe, A Swift, B Hirth. Characterizing power performance and wake of a wind turbine under yaw and blade pitch. Wind Energy, 19, 963-978(2015).
[5] G Cortina, V Sharma, M Calaf. Investigation of the incoming wind vector for improved wind turbine yaw adjustment under different atmospheric and wind farm conditions. Renewable Energy, 101, 376-386(2017).
[7] [7] Beuth T, Fox M, Stk W. Parameterization of a geometrical reaction time model f two beam nacelle LiDARs[C] Proc of SPIE, 2015, 9612: 96120J.
[9] [9] Smith M, Wylie S, Woodward A, et al. Turning the tides on wind measurements: The use of Lidar to verify the perfmance of a meteological mast[C] European Wind Energy Conference Exhibition, 2016: PO 028.
[11] [11] Burchhart T, Gray C, Krishnamurthy R. Evaluation of wind turbine perfmance using WINDCUBE with FCR™ WIND IRIS nacellemounted LiDARs in complex terrain[C] European Wind Energy Conference Exhibition, 2015: PO 025.
[13] [13] Mikkelsen T L. On mean wind turbulence profile measurements from groundbased wind lidars: limitations in time space resolution with continuous wave pulsed lidar systems[C]European Wind Energy Conference Exhibition, 2009: PO 171.
[16] S Jiang, D S Sun, Y L Han. Performance of continuous-wave coherent Doppler lidar for wind measurement. Current Optics and Photonics, 3, 466-472(2019).
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Shan Jiang, Dongsong Sun, Fei Han, Danfeng Xiong, Dongcai Liu, Anran Zhou. Design and test of laser wind measurement system for yaw control of wind turbine[J]. Infrared and Laser Engineering, 2020, 49(8): 20200228
Category: 激光器与激光光学
Received: Mar. 6, 2020
Accepted: --
Published Online: Dec. 31, 2020
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