用于低电压穿越性能评估的光伏降阶解析模型

doi:10.6040/j.issn.1672-3961.0.2020.472

摘要/Abstract

摘要： 采取在每个并网单元层面降阶的思路,重点关注决定穿越成败的直流母线电压,提出用于低电压穿越性能评估的光伏降阶解析模型。该模型涵盖光伏低电压穿越的主要动态环节,包含逆变器控制和锁相环的响应环节,同时,考虑光伏发出的无功输出对并网点电压的支撑作用,反映了光伏并网系统对交流系统提供的无功支持。为验证所提出的降阶解析模型,对比了降阶解析结果和PSCAD仿真波形,证明了文中提出的降阶解析模型精度与可行性。

关键词: 降阶模型, 动态模型, 无功支撑, 光伏并网系统, 低电压穿越

Abstract: A reduced-order analytical model to evaluate the performance of PV in case of low-voltage ride through(LVRT)was proposed based on the idea of order reduction at each unit, focusing on the DC bus voltage which determined the outcome of ride-through. Such a method covered the major factors with regard to PV LVRT, and included the responses by the converter controller and phase-locked loop. Meanwhile, it took the supporting of reactive power outputs from PV on the point of common coupling(PCC)voltage into consideration, so as to reflect that PV provides reactive power support to AC system. To validate the proposed reduced-order analytical model, the comparison with the simulation results derived from PSCAD confirmed its accuracy and feasibility.

Key words: reduced-order model, dynamic model, reactive power support, grid-connected photovoltaic system, low-voltage ride-through

中图分类号:

TM743

牛拴保,霍超,陈春萌,柯贤波,王晓辉,张强,陈宁. 用于低电压穿越性能评估的光伏降阶解析模型[J]. 山东大学学报 (工学版), 2021, 51(3): 91-100.

NIU Shuanbao, HUO Chao, CHEN Chunmeng, KE Xianbo, WANG Xiaohui, ZHANG Qiang, CHEN Ning. Reduced-order analytical model to evaluate photovoltaic low-voltage ride-through performance[J]. Journal of Shandong University(Engineering Science), 2021, 51(3): 91-100.

参考文献 30

[1]	金楚,黎嘉明,徐沈智,等.大规模光伏发电并网概率潮流计算及对电网的影响[J]. 电力工程技术,2017,36(1): 1-8. JIN Chu, LI Jiaming, XU Shenzhi, et al. Probabilistic load flow calculation and influence analysis for power grid connected with large scale photovoltaic generation system[J]. Electric Power Engineering Technology, 2017, 36(1): 1-8.
[2]	卢斯煜,周保荣,饶宏,等. 高比例光伏发电并网条件下中国远景电源结构探讨[J]. 中国电机工程学报, 2018, 38(增刊1): 39-44. LU Siyu, ZHOU Baorong, RAO Hong, et al. Research of the prospect of china power generation structurewith high proportion of photovoltaic generation[J]. Proceedings of the CSEE, 2018, 38(Suppl.1): 39-44.
[3]	杨肖虎,罗剑波,郁琛,等. 适应大规模新能源并网的电力系统备用配置及优化综述[J]. 电力工程技术, 2020, 39(1): 10-20. YANG Xiaohu, LUO Jianbo, YU Chen, et al. Review of power system reserve configuration and optimization for large-scale renewable energy integration[J]. Electric Power Engineering Technology, 2020, 39(1): 10-20.
[4]	杨春波,王晶晶,康鹏, 等. 基于混合型算法的光伏发电系统低电压穿越控制策略[J]. 中国电力, 2020, 53(3): 18-27. YANG Chunbo, WANG Jingjing, KANG Peng, et al. Commutation algorithm for three-phase unbalanced load regulation in distribution network[J]. Electric Power, 2020, 53(3): 18-27.
[5]	郭勇,李勇,皇甫星星,等. 两级式光伏发电系统低电压穿越控制策略研究[J]. 电力工程技术, 2017, 36(6): 7-13. GUO Yong, LI Yong, HUANGFU Xingxing, et al. LVRT control strategy of two-stage PV power system[J]. Electric Power Engineering Technology, 2017, 36(6): 7-13.
[6]	贾利虎,朱永强,孙小燕,等. 基于模型电流预测控制的光伏电站低电压穿越控制方法[J]. 电力系统自动化, 2015, 39(7): 68-74. JIA Lihu, ZHU Yongqiang, SUN Xiaoyan, et al. A control method of low voltage ride through for photovoltaic plant based on model current predictive control[J]. Automation of Electric Power Systems, 2015, 39(7): 68-74.
[7]	滕欣元,葛雪峰,张宸宇,等. 基于新型统一电能质量控制器的光伏电站故障穿越技术[J]. 电力工程技术, 2019, 38(6): 55-60. TENG Xinyuan, GE Xuefeng, ZHANG Chenyu, et al. A novel unified power quality conditioner for the fault ride-through operation of photovoltaic power station[J]. Electric Power Engineering Technology, 2019, 38(6): 55-60.
[8]	霍超,李兆伟,柯贤波,等. 应对UHVDC送端电网新能源大规模脱网的频率紧急控制[J]. 电力工程技术, 2020, 39(4): 42-47. HUO Chao, LI Zhaowei, KE Xianbo, et al. Emergency frequency control for large-scale disconnection of renewable energy in the UHVDC sending grid[J]. Electric Power Engineering Technology, 2020, 39(4): 42-47.
[9]	屠竞哲,易俊,王超,等.考虑光伏动态特性的功角电压交互失稳机理分析[J]. 电力系统自动化, 2020, 44(13): 157-166. TU Jingzhe, YI Jun, WANG Chao, et al. Analysis on instability mechanism of power angle and voltage interaction considering dynamic characteristics of photovoltaic generator[J]. Automation of Electric Power Systems, 2020, 44(13): 157-166.
[10]	YANG Y, BLAABJERG F. Low-voltage ride-through capability of a single-stage single-phase photovoltaic system connected to the low-voltage grid[J]. International Journal of Photoenergy, 2013, 2013: 1-9.
[11]	ZOU J, PENG C, YAN Y, et al. A survey of dynamic equivalent modeling for wind farm[J]. Renewable & Sustainable Energy Reviews, 2014, 40: 956-963.
[12]	潘学萍,张源,鞠平,等. 太阳能光伏电站等效建模[J]. 电网技术, 2015, 39(5): 1173-1178. PAN Xueping, ZHANG Yuan, JU Ping, et al. Equivalent modeling for photovoltaic power station[J]. Power System Technology, 2015, 39(5): 1173-1178.
[13]	郑凌蔚,刘士荣,谢小高. 基于改进小波神经网络的光伏发电系统非线性模型辨识[J]. 电网技术, 2011, 35(10): 159-164. ZHENG Lingwei, LIU Shirong, XIE Xiaogao. Modified wavelet neural network based nonlinear model identification for photovoltaic generation system[J]. Power System Technology, 2011, 35(10): 159-164.
[14]	郑伟,熊小伏. 基于Wiener模型的光伏并网逆变器模型辨识方法[J]. 中国电机工程学报, 2013, 33(36): 18-26. ZHENG Wei, XIONG Xiaofu. A model identification method for photovoltaic grid-connected inverters based on the Wiener model[J]. Proceedings of the CSEE, 2013, 33(36): 18-26.
[15]	刘兴杰,郭栋,王凯龙. 基于电气外特性的光伏发电系统模型等效方法[J]. 电工技术学报, 2014, 29(10): 231-238. LIU Xingjie, GUO Dong, WANG Kailong. Equivalent modeling method for PV system based on its electric external characteristics[J]. Transactions of China Electrotechnical Society, 2014, 29(10): 231-238.
[16]	樊安洁,高山,方济城,等. 基于多链MCMC方法的光伏出力序列预测研究[J]. 电力工程技术, 2018, 37(6): 55-61. FAN Anjie, GAO Shan, FANG Jicheng, et al. A PV power time series generating method considering correlation characteristics based on multi markov chain monte carlo method[J]. Electric Power Engineering Technology, 2018, 37(6): 55-61.
[17]	朱玥,顾洁,孟璐. 基于EMD-LSTM的光伏发电预测模型[J]. 电力工程技术, 2020, 39(2): 51-58. ZHU Yue, GU Jie, MENG Lu. Photovoltaic power generation prediction model based on EMD-LSTM[J]. Electric Power Engineering Technology, 2020, 39(2): 51-58.
[18]	赵俊浩,吴杰康,张文杰,等. 基于布谷鸟-Elman算法的光伏发电预测[J]. 电力工程技术, 2020, 39(2): 81-88. ZHAO Junhao, WU Jiekang, ZHANG Wenkang, et al. Photovoltaic power prediction based on Elman neural network with improved cuckoo algorithm[J]. Electric Power Engineering Technology, 2020, 39(2): 81-88.
[19]	刘家庆,张弘鹏,郭希海, 等. 基于SVR残差修正的光伏发电功率预测模型[J]. 电力工程技术, 2020, 39(5): 146-151. LIU Jiaqing, ZHANG Hongpeng, GUO Xihai, et al. Prediction model of photovoltaic power generation based on SVR residual correction[J]. Electric Power Engineering Technology, 2020, 39(5): 146-151.
[20]	TABONE M, CALLAWAY D. Modeling variability and uncertainty of photovoltaic generation: a hidden state spatial statistical approach[J]. IEEE Transactions on Power Systems, 2015, 30(6): 2965-2973.
[21]	葛路明,曲立楠,陈宁,等. 光伏逆变器的低电压穿越特性分析与参数测试方法[J]. 电力系统自动化, 2018, 42(18): 149-156. GE Luming, QU Linan, CHEN Ning, et al. Characteristic analysis of low voltage ride-through and parameter test method for photovoltaic inverter[J]. Automation of Electric Power Systems, 2018, 42(18): 149-156.
[22]	刘美茵,黄晶生,张军军, 等. 基于BDEW标准的光伏并网逆变器模型验证及误差分析[J]. 电力系统自动化, 2014, 38(13): 196-201. LIU Meiyin, HUANG Jingsheng, ZHANG Junjun, et al. Model validation and error analysis of photovoltaic grid-connected inverter based on BDEW standard[J]. Automation of Electric Power Systems, 2014, 38(13): 196-201.
[23]	沈欣炜,郑竞宏,朱守真,等. 光伏并网逆变器控制参数的dq轴解耦辨识策略[J]. 电力系统自动化, 2014, 38(4): 38-43. SHEN Xinwei, ZHENG Jinghong, ZHU Shouzhen, et al. A dq axis decoupling parameter identification strategy for grid-connected inverter controller of photovoltaic generation system[J]. Automation of Electric Power Systems, 2014, 38(4): 38-43.
[24]	曲立楠,葛路明,朱凌志,等. 光伏电站暂态模型及其试验验证[J]. 电力系统自动化, 2018, 42(10): 170-175. QU Linan, GE Luming, ZHU Lingzhi, et al. Transient modeling of photovoltaic power plant and its test validation[J]. Automation of Electric Power Systems, 2018, 42(10): 170-175.
[25]	LI P, GU W, LONG H, et al. High-precision dynamic modeling of two-staged photovoltaic power station clusters[J]. IEEE Transactions on Power Systems, 2019, 34(6): 4393-4407.
[26]	REMON D, CANTARELLAS A, RORDRIGUEZ P. Equivalent model of large-scale synchronous photovoltaic power plants[J]. IEEE Transactions on Industry Applications, 2016, 52(6): 5029-5040.
[27]	赵书强,李忍,高本锋,等. 光伏并入弱交流电网次同步振荡机理与特性分析[J]. 中国电机工程学报, 2018, 38(24): 7215-7225. ZHAO Shuqiang, LI Ren, GAO Benfeng, et al. Analysis of mechanism and characteristics in sub synchronous oscillation between PV and weak AC networks[J]. Proceedings of the CSEE, 2018, 38(24): 7215-7225.
[28]	孔祥平,袁宇波,阮思烨,等. 面向故障暂态建模的光伏并网逆变器控制器参数辨识[J]. 电力系统保护与控制, 2017, 45(11): 65-72. KONG Xiangping, YUAN Yubo, RUAN Siye, et al. Controller parameter identification of the grid connected PV inverter for fault transient modeling[J]. Power System Protection and Control, 2017, 45(11): 65-72.
[29]	王颢雄,马伟明,肖飞,等. 双dq变换软件锁相环的数学模型研究[J].电工技术学报, 2011, 26(7): 237-241. WANG Haoxiong, MA Weiming, XIAO Fei, et al. Study of model of software phase locked-loop based on dual-dq synchronous transform[J]. Transactions of China Electrotechnical Society, 2011, 26(7): 237-241.
[30]	CESPEDES M, SUN J. Impedance modeling and analysis of grid-connected voltage-source converters[J]. IEEE Transactions on Power Electronics, 2014, 29(3): 1254-1261.

多维度评价

Viewed

Full text

Abstract

Cited

Shared

Discussed