Integrated strategy for real-time wind power fluctuation mitigation and energy storage system control

IF 1.9 Q4 ENERGY & FUELS
Yu Zhang, Yongkang Zhang, Tiezhou Wu
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引用次数: 0

Abstract

To address the impact of wind-power fluctuations on the stability of power systems, we propose a comprehensive approach that integrates multiple strategies and methods to enhance the efficiency and reliability of a system. First, we employ a strategy that restricts long- and short-term power output deviations to smoothen wind power fluctuations in real time. Second, we adopt the sliding window instantaneous complete ensemble empirical mode decomposition with adaptive noise (SW-ICEEMDAN) strategy to achieve real-time decomposition of the energy storage power, facilitating internal power distribution within the hybrid energy storage system. Finally, we introduce a rule-based multi-fuzzy control strategy for the secondary adjustment of the initial power allocation commands for different energy storage components. Through simulation validation, we demonstrate that the proposed comprehensive control strategy can smoothen wind power fluctuations in real time and decompose energy storage power. Compared with traditional empirical mode decomposition (EMD), ensemble empirical mode decomposition (EEMD), and complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN) decomposition strategies, the configuration of the energy storage system under the SW-ICEEMDAN control strategy is more optimal. Additionally, the state-of-charge of energy storage components fluctuates within a reasonable range, enhancing the stability of the power system and ensuring the secure operation of the energy storage system.

实时风电波动缓解与储能系统控制的综合策略
针对风电波动对电力系统稳定性的影响,我们提出了一种综合方法,将多种策略和方法整合在一起,以提高系统的效率和可靠性。首先,我们采用限制长期和短期功率输出偏差的策略来实时平滑风电波动。其次,我们采用具有自适应噪声的滑动窗口瞬时完全集合经验模式分解(SW-ICEEMDAN)策略来实现储能功率的实时分解,从而促进混合储能系统的内部功率分配。最后,我们引入了一种基于规则的多模糊控制策略,用于二次调整不同储能组件的初始功率分配指令。通过仿真验证,我们证明了所提出的综合控制策略能够实时平滑风电波动并分解储能功率。与传统的经验模式分解(EMD)、集合经验模式分解(EEMD)和带自适应噪声的完全集合经验模式分解(CEEMDAN)分解策略相比,SW-ICEEMDAN 控制策略下的储能系统配置更为优化。此外,储能元件的电荷状态在合理范围内波动,增强了电力系统的稳定性,确保了储能系统的安全运行。
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来源期刊
Global Energy Interconnection
Global Energy Interconnection Engineering-Automotive Engineering
CiteScore
5.70
自引率
0.00%
发文量
985
审稿时长
15 weeks
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