Yang WANG, Xiangyang ZHOU. Research on the Method for the Reconstruction and Expansion of the Wind Farm Based on the Scada Data[J]. SOUTHERN ENERGY CONSTRUCTION, 2017, 4(3): 92-96. doi: 10.16516/j.gedi.issn2095-8676.2017.03.017
Citation:
|
Yang WANG, Xiangyang ZHOU. Research on the Method for the Reconstruction and Expansion of the Wind Farm Based on the Scada Data[J]. SOUTHERN ENERGY CONSTRUCTION, 2017, 4(3): 92-96. doi: 10.16516/j.gedi.issn2095-8676.2017.03.017
|
Research on the Method for the Reconstruction and Expansion of the Wind Farm Based on the Scada Data
- 1.
China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China
- Received Date: 2017-07-06
- Publish Date:
2020-07-18
-
Abstract
The speed of the technical development of the wind power plant is much faster than that of the deterioration of the wind farm, with the constant progress of the technology, the majority of wind farms can be targeted expansion, and in order to maximize the use of existing wind farms wind energy resources, increase the economy income. According to the characteristics of the built wind farms, the design of the wind farms is the key to the reconstruction of the wind farms. The Scada data of the built wind farms are statistically analyzed to understand the characteristics and operating characteristics of wind energy resources of wind farms, According to the wind resource characteristics and operating characteristics of the wind farm, The CFD model error of the wind farm is confirmed, and the model of the wind farm is revised to meet the requirements of the accurate simulation of the wind farm. The wind farm is used to determine the wind farm expansion plan to ensure that the wind farm Power generation. The results of the engineering examples and the data analysis show the superiority of the method.
-
References
[1]
|
高峰,杨锡运,王伟,等. 基于测风塔测风数据的风电机组机舱风速修正 [J]. 系统仿真学报,2016(11):2790-2797.
GAO F, YANG X Y, WANG W,et al. Model wind speed correction of wind turbine based on wind measurement data of wind tower [J]. Journal of System Simulation,2016(11):2790-2797. |
[2]
|
高婕,王健,崔永锋,等. 基于陕北某复杂地形风电场Windsim软件数值模拟研究 [J]. 风能,2016(10):62-64.
GAO J, WANG J, CUI Y F,et al. Numerical simulation of windsim software based on a complex terrain wind farm in Northern Shanxi [J]. Wind Energy,2016(10):62-64. |
[3]
|
卢胜,吴莎. 基于SCADA数据的风电场后评估方法 [J]. 电子测试,2016(1):41-43.
LU S, WU S. Post-evaluation method of wind farm based on SCADA data [J]. Electronic Testing,2016(1):41-43. |
[4]
|
刘凯,曾杰,叶任时,等. 复杂地形山地风电场的CFD分析 [J]. 人民长江,2016(3):56-58+102.
LIU K, ZENG J, YE R S,et al. CFD analysis of complex terrain mountain wind farms [J]. Yangtze River,2016(3):56-58+102. |
[5]
|
迟继峰,钟天宇,刘庆超,等. 复杂地形多测风塔综合地貌及风切变拟合修正的风资源评估方法研究 [J]. 华电技术,2012(11):75-77+81.
CHI J F, ZHONG T Y, LIU Q C,et al. Study on wind resource evaluation method of synthetic landform and wind shear fitting in complex terrain [J]. Huadian Technology,2012(11):75-77+81. |
[6]
|
王有禄,李淑华,宋飞. 风电场测风数据的验证和处理方法 [J]. 电力勘测设计,2009(1):60-66.
WANG Y L, LI S H, SONG F. Treatment method and inspection of anemometric dates in wind power plant [J]. Electric Power Survey & Design,2009(1):60-66. |
[7]
|
国际电工委员会. 风力涡轮机,第1部分设计要求:IEC 61400-1-2007 [S]. 美国:国际电工委员会,2007.
IEC/TC. Wind turbines-part 1, design requirements: IEC 61400-1-2007 [S]. U.S.A.: IEC/TC, 2007. |
[8]
|
国际电工委员会. 风轮,第12部分风轮发电的动力性能测试:DIN EN 61400-12-1-2007 [S]. 美国:国际电工委员会,2007.
IEC/TC.Wind turbine-Part 12, test for dynamic performance of wind turbine power generation: DIN EN 61400-12-1-20075 [S]. U.S.A.: IEC/TC, 2007. |
-
-