基于CEEMDAN分解与时空特征融合的短期风电预测

IF 1 4区 工程技术 Q4 ENERGY & FUELS
Xingchen Guo, Rong Jia, Gang Zhang, Benben Xu, Xin He
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引用次数: 0

摘要

由于风力发电的随机性,风电场的输出功率会出现波动。因此,电网可能面临增加备用容量的需求,增加调度困难,以及风电场的废弃。准确预测风电场的输出功率是解决这些问题的有效途径。传统的预测方法通常是基于在单一高度获得的风数据进行预测。然而,由于风电场内不同高度的风速和风向具有时空相关性,预测周期较长,预测误差较大。在该模型中,首先对风电数据进行“带自适应噪声的完全系综经验模态分解”模型分解,得到具有不同波动特征的模态分量。然后,提取不同高度的风速、风向、气压等数据特征,进行时空特征融合;利用重庆某风电场的实测数据验证了该方法的可行性和有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Short-term Wind Power Prediction Based on CEEMDAN De-composition and Spatiotemporal Feature Fusion
Due to the randomness of wind power generation, the output power of a wind farm will fluctuate. As a result, the power grid can face a need for increased reserve capacity, increasing scheduling difficulties, and wind farm abandonment. An effective way to address these problems is to accurately predict the output power of wind farms. Traditional prediction methods usually make predictions based on wind data obtained at a single height. However, with long prediction periods, prediction errors are relatively large because the wind speed and direction at different heights have spatiotemporal correlations within a wind farm. In the model presented here, the wind power data are first decomposed by a “complete ensemble empirical mode decomposition with adaptive noise” model to obtain modal components with different fluctuation characteristics. Then, the characteristics of wind speed, wind direction, air pressure, and other data at different heights are extracted for spatiotemporal feature fusion. Actual measurement data from a wind farm in Chongqing are used to verify the feasibility and effectiveness of the proposed method.
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来源期刊
CiteScore
3.00
自引率
18.20%
发文量
35
期刊介绍: Energy addresses the challenges of energy engineering in the 21st century. The journal publishes groundbreaking papers on energy provision by leading figures in industry and academia and provides a unique forum for discussion on everything from underground coal gasification to the practical implications of biofuels. The journal is a key resource for engineers and researchers working to meet the challenges of energy engineering. Topics addressed include: development of sustainable energy policy, energy efficiency in buildings, infrastructure and transport systems, renewable energy sources, operation and decommissioning of projects, and energy conservation.
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