科技报告详细信息
Review of Wind Energy Forecasting Methods for Modeling Ramping Events
Wharton, S ; Lundquist, J K ; Marjanovic, N ; Williams, J L ; Rhodes, M ; Chow, T K ; Maxwell, R
Lawrence Livermore National Laboratory
关键词: Lawrence Livermore National Laboratory;    Wind Turbines;    Forecasting;    Remote Sensing;    17 Wind Energy;   
DOI  :  10.2172/1022139
RP-ID  :  LLNL-TR-476934
RP-ID  :  W-7405-ENG-48
RP-ID  :  1022139
美国|英语
来源: UNT Digital Library
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【 摘 要 】

Tall onshore wind turbines, with hub heights between 80 m and 100 m, can extract large amounts of energy from the atmosphere since they generally encounter higher wind speeds, but they face challenges given the complexity of boundary layer flows. This complexity of the lowest layers of the atmosphere, where wind turbines reside, has made conventional modeling efforts less than ideal. To meet the nation's goal of increasing wind power into the U.S. electrical grid, the accuracy of wind power forecasts must be improved. In this report, the Lawrence Livermore National Laboratory, in collaboration with the University of Colorado at Boulder, University of California at Berkeley, and Colorado School of Mines, evaluates innovative approaches to forecasting sudden changes in wind speed or 'ramping events' at an onshore, multimegawatt wind farm. The forecast simulations are compared to observations of wind speed and direction from tall meteorological towers and a remote-sensing Sound Detection and Ranging (SODAR) instrument. Ramping events, i.e., sudden increases or decreases in wind speed and hence, power generated by a turbine, are especially problematic for wind farm operators. Sudden changes in wind speed or direction can lead to large power generation differences across a wind farm and are very difficult to predict with current forecasting tools. Here, we quantify the ability of three models, mesoscale WRF, WRF-LES, and PF.WRF, which vary in sophistication and required user expertise, to predict three ramping events at a North American wind farm.

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