储能科学与技术 ›› 2023, Vol. 12 ›› Issue (2): 468-476.doi: 10.19799/j.cnki.2095-4239.2022.0550

• 储能系统与工程 • 上一篇    下一篇

抽水蓄能-飞轮混合储能系统协调控制方法

武鑫1(), 尚文举1, 马志勇1(), 滕伟1, 张爽2, 罗海荣2   

  1. 1.华北电力大学先进飞轮储能技术研究中心,北京 102206
    2.国网宁夏电力有限公司电力科学研究院,宁夏 银川 750011
  • 收稿日期:2022-09-28 修回日期:2022-10-26 出版日期:2023-02-05 发布日期:2023-02-24
  • 通讯作者: 马志勇 E-mail:wuxin@ncepu.edu.cn;mzy@ncepu.edu.cn
  • 作者简介:武鑫(1980—),男,博士,副教授,研究方向为储能系统和发电系统建模、控制等,E-mail:wuxin@ncepu.edu.cn
  • 基金资助:
    国网宁夏电力有限公司科技项目(SGNXDK00WLJS2200088)

Coordinated control method for pumped and flywheel hybrid energy storage system

Xin WU1(), Wenju SHANG1, Zhiyong MA1(), Wei TENG1, Shuang ZHANG2, Hairong LUO2   

  1. 1.Advanced Flywheel Energy Storage Technology Research Center, North China Electric Power University, Beijing 102206, China
    2.State Grid Ningxia Electric Power Research Institute, Yinchuan 750011, Ningxia, China
  • Received:2022-09-28 Revised:2022-10-26 Online:2023-02-05 Published:2023-02-24
  • Contact: Zhiyong MA E-mail:wuxin@ncepu.edu.cn;mzy@ncepu.edu.cn

摘要:

建立了一台容量为300 MW的抽水蓄能机组功率模型和容量为25 MW的飞轮储能阵列模型并分析了各自的充放电特性。然后,为了达到抽水蓄能机组综合调频指标提高至2倍,同时减小机组磨损进而降低损耗成本的目标,基于水电机组斜坡输入控制策略和飞轮储能阵列荷电状态(SOC)分段控制策略,提出了一种抽水蓄能-飞轮混合储能系统的协调控制策略。最后,根据某额定功率为300 MW的抽水蓄能机组历史运行数据,通过仿真实验验证了所提出的混合储能系统协调控制策略。结果表明:在电网二次调频过程中,提出的混合储能系统协调控制策略将抽水蓄能机组的综合调频性能指标提高2.29倍以上,能够显著减少抽水蓄能机组平稳运行阶段的频繁输出调整、进而降低损耗成本并提高抽水蓄能机组的稳态运行特性,同时保证飞轮储能阵列的SOC维持在合理水平。

关键词: 抽水蓄能, 飞轮储能, 混合储能系统, 协调控制方法, 二次调频

Abstract:

First, a pumped storage unit with a capacity of 300 MW and a flywheel storage array with a capacity of 25 MW are modeled and their corresponding charging and discharging characteristics are analyzed. Then, a coordinated control strategy is proposed for the pumped and flywheel hybrid energy storage system, based on the ramp input control strategy for the hydroelectric unit and the state of charge (SOC) segmentation control strategy for the flywheel energy storage array. The proposed method is aimed to improve the integrated frequency regulation index of the pumped storage unit by a factor of 2 and reduce the wear and tear of the unit for reduced loss cost. Finally, the proposed coordinated control strategy for the hybrid energy storage system is verified by numerical experiments using the historical operation data of a pumped storage unit with a rated power of 300 MW. In the process of secondary frequency regulation of the power grid, the results show that the proposed coordinated control strategy of the hybrid storage system can improve the performance index of the integrated frequency regulation by more than 2.29 times for the pumped storage unit. In addition, the frequent output adjustment is significantly reduced during the smooth operation of the pumped storage unit, leading to reduced loss cost and improved steady-state operation characteristics for the pumped storage unit. Moreover, the SOC of the flywheel energy storage array is also maintained at a reasonable level.

Key words: pumped hydro storage, flywheel energy storage, hybrid energy storage system, coordinated control method, secondary frequency regulation

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