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Scanning Lidar Spatial Calibration and Alignment Method for Wind Turbine Wake Characterization

机译：扫描激光雷达空间标定和对准方法用于风轮机尾迹表征

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Sandia National Laboratories and the National Renewable Energy Laboratory conducted a field campaign at the Scaled Wind Farm Technology (SWiFT) Facility using a customized scanning lidar from the Technical University of Denmark. The results from this field campaign will support the validation of computational models to predict wake dissipation and wake trajectory offset downstream of a stand-alone wind turbine. In particular, regarding the effect of changes in the atmospheric boundary layer inflow state and turbine yaw offset. A key step in this validation process involves quantifying, and reducing, the uncertainty in the wake measurements. The present work summarizes the process that was used to calibrate the alignment of the lidar in order to reduce this source of uncertainty in the experimental data from the SWiFT field test.

机译：桑迪亚国家实验室和国家可再生能源实验室使用来自丹麦技术大学的定制扫描激光雷达在规模化风电场技术（SWiFT）设施上开展了野外活动。该野外活动的结果将支持对计算模型的验证，以预测独立风力涡轮机下游的尾流耗散和尾流轨迹偏移。特别是关于大气边界层流入状态和涡轮偏航偏移的变化的影响。此验证过程中的关键步骤涉及量化和减少尾波测量中的不确定性。本工作总结了用于校准激光雷达对准的过程，以减少来自SWiFT现场测试的实验数据中的不确定性。

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《35th Wind energy symposium 2017》|2017年|86-95|共10页
会议地点 Grapevine(US)
作者
Thomas Herges; David Maniaci; Brian Naughton; Kasper Hjorth Hansen; Mikael Sjoholm; Nikolas Angelou; Torben Mikkelsen;
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Sandia National Laboratories, Albuquerque, NM, 87J85;

Sandia National Laboratories, Albuquerque, NM, 87J85;

Sandia National Laboratories, Albuquerque, NM, 87J85;

DTU Wind Energy, Riso Campus, Frederiksborgvej 399, DK 4000 Roskilde, Denmark;

DTU Wind Energy, Riso Campus, Frederiksborgvej 399, DK 4000 Roskilde, Denmark;

DTU Wind Energy, Riso Campus, Frederiksborgvej 399, DK 4000 Roskilde, Denmark;

DTU Wind Energy, Riso Campus, Frederiksborgvej 399, DK 4000 Roskilde, Denmark;

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1. Measurement procedures for characterization of wind turbine wakes with scanning Doppler wind LiDARs [J] . G. V.Iungo, F.Porté-Agel Advances in Science and Research . 2013,第1期

机译：用扫描多普勒测风LiDAR表征风轮机尾流的测量程序
2. LiSBOA (LiDAR Statistical Barnes Objective Analysis) for optimal design of lidar scans and retrieval of wind statistics – Part?2: Applications to lidar measurements of wind turbine wakes [J] . Letizia Stefano, Zhan Lu, Iungo Giacomo Valerio Atmospheric Measurement Techniques Discussions . 2021,第3期

机译：LISBOA（LIDAR统计BARNES客观分析）用于LIDAR扫描的最佳设计和风统计检索 - 部分？2：激光涡轮机的LIDAR测量的应用
3. LiSBOA (LiDAR Statistical Barnes Objective Analysis) for optimal design of lidar scans and retrieval of wind statistics – Part?2: Applications to lidar measurements of wind turbine wakes [J] . Letizia Stefano, Zhan Lu, Iungo Giacomo Valerio Atmospheric Measurement Techniques . 2021,第3期

机译：LISBOA（LIDAR统计BARNES客观分析）用于LIDAR扫描的最佳设计和风统计检索 - 部分？2：激光涡轮机的LIDAR测量的应用
4. Scanning Lidar Spatial Calibration and Alignment Method for Wind Turbine Wake Characterization [C] . Thomas Herges, David Maniaci, Brian Naughton, Wind energy symposium . 2017

机译：扫描潮汐空间校准及对准方法，用于风力涡轮机唤醒特征
5. The Effect of Wind Turbine Wakes on Summertime Midwest Atmospheric Wind Profiles as Observed with Ground Based Doppler LIDAR. [D] . Rhodes, Michael Edward. 2012

机译：地面多普勒激光雷达观测到的风力涡轮机苏醒对夏季中西部大气风廓线的影响。
6. Field Calibration of Wind Direction Sensor to the True North and Its Application to the Daegwanryung Wind Turbine Test Sites [O] . Jeong Wan Lee 2008

机译：真北风向传感器的现场标定及其在大关岭风电机组试验场中的应用
7. Measurement procedures for characterization of wind turbine wakes with scanning Doppler wind LiDARs [O] . G. V. Iungo, F. Porté-Agel 2013

机译：用扫描多普勒风LiDaR表征风力涡轮机尾流的测量程序

Scanning Lidar Spatial Calibration and Alignment Method for Wind Turbine Wake Characterization

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