适应高比例新能源电力系统的抽水蓄能自适应调频控制及低频切泵策略

张 萍<sup>1</sup>; 胡 龙<sup>1</sup>; 邸宏亮<sup>1</sup>; 刘德旭<sup>2</sup>; 刘海涛<sup>1</sup>

引用本文:	张萍,胡龙,邸宏亮,等.适应高比例新能源电力系统的抽水蓄能自适应调频控制及低频切泵策略[J].电力系统保护与控制,2025,53(02):1-13.[点击复制]
	ZHANG Ping,HU Long,DI Hongliang,et al.Adaptive frequency regulation control and low-frequency pump-shedding strategy for pumped-storage in high-proportion new energy power systems[J].Power System Protection and Control,2025,53(02):1-13[点击复制]

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适应高比例新能源电力系统的抽水蓄能自适应调频控制及低频切泵策略
张萍¹,胡龙¹,邸宏亮¹,刘德旭²,刘海涛¹
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(1.兰州理工大学电气工程与信息工程学院，甘肃兰州 730050;2.清华四川能源互联网研究院，四川成都 610213)

摘要:

抽水蓄能具有突出的能量密度和功率密度优势。借助其快速响应和灵活调节能力，能够有效平抑新能源出力随机波动，提高系统频率稳定性。针对抽水蓄能如何融入电力系统频率稳定控制问题，提出一种基于转速保护的变速抽蓄自适应综合惯量控制策略，并采用优化思想对控制参数进行求解。在考虑短期频率变化率(rate of change of frequency, RoCoF)预测及变速抽蓄自适应综合惯量控制响应系统频率变化的基础上，对传统电力系统低频切泵策略进行改进，提出定速抽蓄自适应低频切泵控制策略。通过不同场景下的仿真验证，结果表明，将变速抽蓄自适应综合惯量调频控制策略与改进低频切泵策略相结合能够更好地适应高比例新能源电力系统，提升系统的频率调节性能。

关键词: 抽水蓄能电力系统频率稳定控制高比例新能源频率变化率

DOI：10.19783/j.cnki.pspc.240417

投稿时间：2024-04-08修订日期：2024-08-08

基金项目:国家自然科学基金项目资助(51867085)

Adaptive frequency regulation control and low-frequency pump-shedding strategy for pumped-storage in high-proportion new energy power systems

ZHANG Ping¹,HU Long¹,DI Hongliang¹,LIU Dexu²,LIU Haitao¹

(1. College of Electrical and Information Engineering, Lanzhou University of Technology, Lanzhou 730050, China; 2. Sichuan Energy Internet Research Institute, Tsinghua University, Chengdu 610213, China)

Abstract:

Pumped storage has outstanding advantages in energy density and power density. With its rapid response and flexible regulation capabilities, it can effectively smooth out the random fluctuations of new energy output and improve system frequency stability. To address the integration of pumped storage into power system frequency stability control, an adaptive integrated inertia control strategy based on speed protection for variable-speed pumped storage is proposed, and optimization methods are used to solve the control parameters. Considering the prediction of short-term rate of change of frequency (RoCoF) and the response of the variable-speed pumped storage adaptive integrated inertia control to system frequency change, the traditional low-frequency pump-shedding strategy of power systems is improved, and a fixed-speed pumped storage adaptive low-frequency pump-shedding control strategy is proposed. Simulation verification under different scenarios shows that combining the variable-speed pumped storage adaptive integrated inertia frequency regulation control strategy with the improved low-frequency pump-shedding strategy can better adapt to the high- proportion new energy power systems and improve the system’s frequency regulation performance.

Key words: pumped storage power system frequency stability control high-proportion new energy rate of change of frequency

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