山东大学学报 (工学版) ›› 2024, Vol. 54 ›› Issue (2): 174-182.doi: 10.6040/j.issn.1672-3961.0.2022.356
• 电气工程 • 上一篇
杨金刚1,石振江1,何成明1,李笑蓉1,梁永亮2*
YANG Jingang1, SHI Zhenjiang1, HE Chengming1, LI Xiaorong1, LIANG Yongliang2*
摘要: 以提升高比例新能源送端电网的暂态电压安全性为目标,研究调相机组的选址和定容优化配置问题。基于新能源机组高/低电压安全穿越标准建立暂态电压安全评估指标,提出调相机安装站点优选方法。综合考虑送端电网暂态电压安全和外送通道功率输送要求,构建调相机配置容量优化模型,提出应用天牛群算法的模型求解方法。通过对高比例新能源送端电网仿真分析,验证了所提调相机优化配置策略能够有效提升送端电网暂态电压安全水平并减少故障扰动下外送通道功率与故障前调度值偏差。
中图分类号:
[1] 石文辉,屈姬贤,罗魁,等.高比例新能源并网与运行发展研究[J]. 中国工程科学, 2022,24(6): 52-63. SHI Wenhui, QU Jixian, LUO Kui, et al. Grid-integration and operation of high-proportioned new energy[J]. Strategic Study of CAE, 2022, 24(6): 52-63. [2] CARRASCO J M, FRANQUELO L G, BIALASIEWICZ J T, et al. Power-electronic systems for the grid integration of renewable energy sources: a survey[J]. IEEE Transactions on Industrial Electronics, 2006, 53(4): 1002-1016. [3] 屠竞哲,潘艳,訾鹏,等. 功角失稳与暂态过电压并存型锡盟交直流弱送端系统特性分析[J].电网技术,2021,45(4):1496-1506. TU Jingzhe, PAN Yan, ZI Peng, et al. Ximeng AC/DC weak sending-side system characteristics with angle instability and transient overvoltage[J]. Power System Technology, 2021, 45(4):1496-1506. [4] 甄永赞,苏宁赛,李美林. 适用于高/低电压穿越的双馈风机协同控制策略及其稳定技术研究[J].电网技术,2021,45(1):39-49. ZHEN Yongzan, SU Ningsai, LI Meilin. Research on doubly-fed induction generators synergetic control strategy and stability technology for high/low voltage ride through[J]. Power System Technology, 2021, 45(1):39-49. [5] 孙华东,于琳,赵兵. 基于暂态过电压约束的新能源并网系统电压支撑强度量化分析方法[J]. 中国电机工程学报, 2023, 43(11):4207-4218. SUN Huadong, YU Lin, ZHAO Bing.Quantitative anal-ysis of system strength of renewable energy generation grid-connected system based on transient overvoltage constraint[J]. Proceedings of the CSEE, 2023, 43(11):4207-4218. [6] 申家锴,刘洋,李卫东,等. 考虑频率与区间联络线功率安全约束的两区互联电力系统机组组合[J]. 电力自动化设备, 2022, 42(11):167-175. SHEN Jiakai, LIU Yang, LI Weidong, et al. Unit commitment considering safety constraints of frequency and inter-areal tie-line power in two-area interconnected power system[J]. Electric Power Automation Equipment, 2022, 42(11):167-175. [7] 金一丁, 于钊, 李明节, 等. 新一代调相机与电力电子无功补偿装置在特高压交直流电网中应用的比较[J]. 电网技术, 2018, 42(7):2095-2102. JIN Yiding, YU Zhao, LI Mingjie, et al.Comparison of new generation synchronous condenser and power elect-ronic reactive-power compensation devices in application in UHV DC/AC grid[J]. Power System Technology, 2018, 42(7):2095-2102. [8] 陆超, 崔文进, 李红军, 等. 京沪穗电网暂态电压稳定问题与STATCOM应用[J]. 电力系统自动化, 2004, 28(11):9-12. LU Chao, CUI Wenjin, LI Hongjun, et al. Problems and solutions of transient voltage stability in load centers of China[J]. Automation of Electric Power System, 2004, 28(11):9-12. [9] 张粒子, 舒隽, 林宪枢, 等. 基于遗传算法的无功规划优化[J].中国电机工程学报,2000, 20(6):6-9. ZHANG Lizi, SHU Jun, LIN Xianshu, et al. Reactive power planning based on genetic algorithm[J]. Proceedings of the CSEE, 2000, 20(6):6-9. [10] 严艺芬, 吴文宣, 张逸, 等. 考虑主动管理措施的配电网无功补偿双层优化配置[J]. 电力系统保护与控制, 2017, 45(12):60-66. YAN Yifen, WU Wenxuan, ZHANG Yi, et al. Bi-level optimal allocation of reactive power compensation considering active management measure[J]. Power System Protection and Control, 2017, 45(12):60-66. [11] 张海鹏, 林舜江, 刘明波. 考虑光伏不确定性的低压配电网分散无功补偿鲁棒优化配置[J]. 电网技术, 2016, 40(12):3880-3888. ZHANG Haipeng, LIN Shunjiang, LIU Mingbo. Robust optimal allocation of reactive power compensation in low voltage distribution networks considering uncertainty of photovoltaic generation[J]. Power System Technology, 2016, 40(12):3880-3888. [12] 袁志昌, 刘文华, 宋强. 基于暂态电压稳定指标的动态无功优化配置方法[J]. 电力系统自动化, 2009, 33(14):17-21. YUAN Zhichang, LIU Wenhua, SONG Qiang. Optimal allocation method of dynamic Var compensation based on transient voltage stability index[J]. Automation of Electric Power System, 2009, 33(14):17-21. [13] SAPKOTA B, VITTAL V. Dynamic VAR planning in a large power system using trajectory sensitivities[J]. IEEE Transactions on Power Systems, 2009, 25(1): 461-469. [14] 周仕豪, 唐飞, 刘涤尘, 等. 考虑降低暂态电压失稳风险的动态无功优化配置方法[J]. 电力系统保护与控制, 2018, 46(7):68-75. ZHOU Shihao, TANG Fei, LIU Dichen, et al. A dynamic VAR optimal configuration method for reducing the risk of transient voltage instability[J]. Power System Protection and Control, 2018, 46(7):68-75. [15] XU Yan, DONG Zhaoyang, MENG Ke, et al. Multi-objective dynamic VAR planning against short-term voltage instability using a decomposition-based evolutionary algorithm[J]. IEEE Transactions on Power Systems, 2014, 29(6): 2813-2822. [16] 索之闻, 刘建琴, 蒋维勇, 等. 大规模新能源直流外送系统调相机配置研究[J]. 电力自动化设备, 2019, 39(9):124-129. SUO Zhiwen, LIU Jianqin, JIANG Weiyong, et al. Research on synchronous condenser configuration of large-scale renewable energy DC transmission system[J]. Electric Power Automation Equipment, 2019, 39(9):124-129. [17] 徐艳春, 蒋伟俊, 汪平, 等. 考虑暂态电压稳定的含高渗透率风光的电网动态无功规划方法[J]. 电力自动化设备, 2022, 42(8):79-88. XU Yanchun, JIANG Weijun, WANG Ping, et al. Dynamic reactive power planning method for power grid with high permeabilitywind power and photovoltaic consi-dering transient voltage stability[J]. Electric Power Automation Equipment, 2022, 42(8):79-88. [18] 常海军, 霍超, 刘福锁, 等. 提高弱送端电网暂态电压稳定水平的调相机优化配置研究[J]. 电力系统保护与控制, 2019, 47(6):90-95. CHANG Haijun, HUO Chao, LIU Fusuo, et al. Research on optimal allocation method of synchronous condensers for improving transient voltage stability level of weak sending-end power grid[J]. Power System Protection and Control, 2019, 47(6):90-95. [19] 花赟玥, 吴琛, 黄伟, 等. 考虑风电低电压穿越过程的频率最低点量化及其提升方法[J]. 电力系统自动化, 2023, 47(1):126-134. HUA Yunyue, WU Chen, HUANG Wei, et al. Quantification and enhancement method for frequency nadir considering low voltage ride-through process of wind Power[J]. Automation of Electric Power Systems, 2023, 47(1):126-134. [20] 高正, 王世荣, 丁恒. 浅论光伏电站无功补偿工程应用[J]. 山东工业技术, 2019, 282(4):190-191. GAO Zheng, WANG Shirong, DING Heng. Application of reactive power compensation in photovoltaic power plant[J]. Shandong Industrial Technology, 2019, 282(4):190-191. [21] JIANG Yufeng, WANG Shuqing, LI Yingchao. Localizing and quantifying structural damage by means of a beetle swarm optimization algorithm[J]. Advances in Structural Engineering, 2021, 24(2):370-384. [22] SHI Yuhui. Particle swarm optimization[J]. IEEE Connections, 2004, 2(1):8-13. [23] YANG Hao, LI Ning, SUN Zhenglong, et al. Real-time adaptive UVLS by optimized fuzzy controllers for short-term voltage stability control[J]. IEEE Transactions on Power Systems, 2021, 37(2): 1449-1460. |
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