Coordinated Voltage Control Strategy of Distribution Network Considering PV's Reactive Power

doi:10.3969/j.issn.1000-7229.2019.05.010

Abstract

Abstract: With large-scale photovoltaic （PV） systems access to distribution network， a coordinated voltage control strategy considering PV converter's reactive power for distribution network with multiple voltage levels is proposed， which aiming at the problem that low-voltage distributed PV's reactive power is not fully utilized and reactive power and voltage in high and low voltage distribution network are not coordinated and optimized as a whole. In the low-voltage distribution network where communication network is not available and unable to achieve unified scheduling， three kinds of local autonomous voltage control modes are chosen to control the reactive power and voltage in real time. In the proposed reactive power and voltage coordinated control model for distribution network with multiple voltage levels， considering a variety of reactive power sources including PV inverters with communication networks， models for voltage partition and dominant node selection are established， and a two-layer coordination control strategy， including the upper global optimization and the lower subdivision optimization， is designed. This strategy fully mines the capability of PV converter's reactive power to adjust the voltage of the distribution network， and realizes the accurate control of reactive power and voltage. A practical example system， the distribution network supplied by Shuanglong 220 kV substation in Jiangsu Province， is used to verify the proposed strategy， and the results verify its advantages in reactive power and voltage control as well as the ability of accessing PV power.

Key words: distribution network, photovoltaic, reactive power and voltage control, multiple voltage levels

CLC Number:

TM 71

WU Xiaofei，DAI Hui，HUANG Xiaojian，YANG Meng，LIU Haoming. Coordinated Voltage Control Strategy of Distribution Network Considering PV's Reactive Power[J]. Electric Power Construction, 2019, 40(5): 78-89.

References

［1］孟庭如，邹贵彬，许春华，等. 一种分区协调控制的有源配电网调压方法［J］. 中国电机工程学报， 2017， 37（10）: 2852-2860.
MENG Tingru， ZOU Guibin， XU Chunhua，et al. A voltage regulation method based on district-dividing coordinated control for active distribution network［J］. Proceedings of the CSEE， 2017， 37（10）: 2852-2860.
［2］国家能源局. 2018年前三季度光伏建设运行情况［R/OL］. （2018-11-19）［2018-11-25］. http://www.nea.gov.cn/2018-11/19/c_137617256.htm.
［3］张世翔，邵慧壮. 含分布式电源的配电网优化研究［J］. 中国电力， 2017， 50（3）: 147-153.
ZHANG Shixiang， SHAO Huizhuang. Optimization research of distribution network considering distributed generation ［J］. Electric Power， 2017， 50（3）: 147-153.
［4］方景辉，温镇. 分布式光伏就地自适应电压控制策略研究［J］. 电力系统保护与控制， 2015， 43（23）: 49-55.
FANG Jinghui， WEN Zhen. Research on local adaptive voltage control strategy based on distributed PV ［J］. Power System Protection and Control， 2015， 43（23）: 49-55.
［5］周金辉，骆宗义，王子凌，等. 考虑AVC的含分布式光伏园区配电网无功电压控制仿真［J］. 浙江电力， 2018， 37（10）: 19-24.
ZHOU Jinhui， LUO Zongyi， WANG Ziling，et al. Simulation of var-voltage control in distribution network with distributed PV considering AVC［J］. Zhejiang Electric Power， 2018， 37（10）: 19-24.
［6］蔡永翔，唐巍，张璐，等. 基于光伏逆变器无功调节的低压配电网多模式电压控制［J］. 电力系统自动化， 2017， 41（13）: 133-141.
CAI Yongxiang， TANG Wei， ZHANG Lu，et al. Multi-mode voltage control in low distribution networks based on reactive power regulation of photovoltaic inverters ［J］. Automation of Electric Power Systems， 2017， 41（13）: 133-141.
［7］李清然，张建成. 含分布式光伏电源的配电网电压越限解决方案［J］. 电力系统自动化， 2015， 39（22）: 117-123.
LI Qingran， ZHANG Jiancheng. Solutions of voltage beyond limits in distribution network with distributed photovoltaic generators［J］. Automation of Electric Power Systems， 2015， 39（22）: 117-123.
［8］原凯，孙充勃，冀浩然，等. 基于凸差规划的有源配电网电压无功协调控制方法［J］. 电力系统及其自动化学报， 2018， 30（9）: 108-113， 150.
YUAN Kai， SUN Chongbo， JI Haoran，et al. Coordinated control method for voltage and reactive power of active distribution network based on difference-of-convex programming［J］. Proceedings of the CSU-EPSA， 2018， 30（9）: 108-113， 150.
［9］陈飞，刘东，陈云辉. 主动配电网电压分层协调控制策略［J］. 电力系统自动化， 2015， 39（9）: 61-67.
CHEN Fei， LIU Dong， CHEN Yunhui. Hierarchically distributed voltage control strategy for active distribution network［J］. Automation of Electric Power Systems， 2015， 39（9）: 61-67.
［10］CHAI Y Y， GUO L， WANG C S， et al. Network partition and voltage coordination control for distribution networks with high penetration of distributed PV units ［J］. IEEE Transactions on Power Systems， 2018， 33（3）: 3396-3407.
［11］肖浩，裴玮，董佐民，等. 基于元模型全局最优化方法的含分布式电源配电网无功优化［J］. 中国电机工程学报， 2018， 38（19）: 5751-5762.
XIAO Hao， PEI Wei， DONG Zuomin，et al. Reactive power optimization of distribution network with distributed generation using metamodel-based global optimization method［J］. Proceedings of the CSEE， 2018， 38（19）: 5751-5762.
［12］张玮亚，李永丽，孙广宇，等. 基于静止同步补偿器的主动配电网分区电压控制［J］. 中国电机工程学报， 2015， 35（7）: 1644-1656.
ZHANG Weiya， LI Yongli， SUN Guangyu，et al. Zonal-voltage control for active distribution network based on distributed static synchronous compensator［J］. Proceedings of the CSEE， 2015， 35（7）: 1644-1656.
［13］肖传亮，赵波，周金辉，等. 配电网中基于网络分区的高比例分布式光伏集群电压控制［J］. 电力系统自动化， 2017， 41（21）: 147-155.
XIAO Chuanliang， ZHAO Bo， ZHOU Jinhui，et al. Network partition based cluster voltage control of high-penetration distributed photovoltaic systems in disribution networks［J］. Automation of Electric Power Systems， 2017， 41（21）: 147-155.
［14］周林，晁阳，廖波，等. 低压网络中并网光伏逆变器调压策略［J］. 电网技术， 2013， 37（9）: 2427-2432.
ZHOU Lin， CHAO Yang， LIAO Bo，et al. A voltage regulation strategy by grid-connected PV inverters in low-voltage networks［J］. Power System Technology， 2013， 37（9）: 2427-2432.
［15］任佳依，顾伟，王勇，等. 基于模型预测控制的主动配电网多时间尺度有功无功协调调度［J］. 中国电机工程学报， 2018， 38（5）: 1397-1407.
REN Jiayi， GU Wei， WANG Yong，et al. Multi-time scale active and reactive power coordinated optimal dispatch in active distribution network based on model predictive control［J］. Proceedings of the CSEE， 2018， 38（5）: 1397-1407.
［16］Verband Deutscher Elektrotechniker （VDE）. Technical minimum requirements for the connection to and parallel operation with low-voltage distribution networks ［S］. Berlin: VDE Verlag GMBH， 2011.
［17］全国电压电流等级和频率标准化技术委员会. 电能质量供电电压偏差: GB/T 12325—2008［S］. 北京：中国标准出版社，2008.［18］陆凌芝，耿光飞，季玉琦，等. 基于电气距离矩阵特征根分析的主动配电网电压控制分区方法［J］. 电力建设， 2018， 39（1）: 83-89.
LU Lingzhi， GENG Guangfei， JI Yuqi，et al. Voltage control partition method of active distribution network based on electrical distance matrix eigenvalue analysis ［J］. Electric Power Construction， 2018， 39（1）: 83-89.
［19］李建芳，张璐，宋晓辉，等. 含高渗透率分布式电源的配电网多目标无功分区及主导节点选择方法［J］. 可再生能源， 2017， 35（11）: 1664-1671.
LI Jianfang， ZHANG Lu， SONG Xiaohui，et al. Multi-objective reactive power partitioning and pilot node selection of distribution network with high penetration of DGs［J］. Renewable Energy Resources， 2017， 35（11）: 1664-1671.
［20］于琳，孙莹，徐然，等. 改进粒子群优化算法及其在电网无功分区中的应用［J］. 电力系统自动化， 2017， 41（3）: 89-95， 128.
YU Lin， SUN Ying， XU Ran，et al. Improved particle swarm optimization algorithm and its application in reactive power partitioning of power grid［J］. Automation of Electric Power Systems， 2017， 41（3）: 89-95， 128.

[1]	HUANG Jiaqi， ZHANG Yuwei， HE Jifeng1， YAN Jiong， ZHU Xu， YANG Jun. A Robust Expansion Planning Method for Distribution Networks Considering Extreme Scenarios [J]. Electric Power Construction, 2020, 41(7): 67-74.
[2]	HE Houyu1， HE Huaqin1， WANG Qian2， WANG Yanming1， GAO Lingjun1， LUO Zhao2， ZANG Haixiang3. Cost Sharing of Distributed Photovoltaic Power Generation Considering Carbon Footprint and Transactions [J]. Electric Power Construction, 2020, 41(6): 85-92.
[3]	GAO Chong， ZENG Guangxuan， ZHANG Junxiao， CAO Huazhen，TANG Junxi，YU Tao. Reliability Assessment of Distribution Network Cyber-Physical System Using Goal-Oriented Method [J]. Electric Power Construction, 2020, 41(5): 58-65.
[4]	ZHANG Zhirong， QIU Xiaoyan， SUN Xu， REN Hao， ZHANG Mingke. Economic Optimal Scheduling of AC/DC Distribution Network Coordinating Flexible Load and Energy Storage Systems#br# [J]. Electric Power Construction, 2020, 41(5): 116-123.
[5]	ZHONG Shiyuan, XIONG Ning, ZHANG Chenghao, LI Yingxue, SHU Jiao1 ZHANG Peng. A Collaborative Planning Method for Distribution Network Structure and Distribution Automation Terminal [J]. Electric Power Construction, 2020, 41(3): 23-30.
[6]	LIU Zifa, WANG Xinyue,YU Hanxiao, GAO Jianyu, WU Gang. Interactive Power Pricing Strategy and Method for Real-Time Power Market with Multi-Microgrid Connection [J]. Electric Power Construction, 2020, 41(3): 39-46.
[7]	ZHANG Jiaan， WANG Kunyue， CHEN Jian， GUO Lingxu， HUANG Xiaoxiao,FAN Ruiqing， LI Zhijun. Research on Prediction of Distributed Photovoltaic Output Considering Spatial Relevance [J]. Electric Power Construction, 2020, 41(3): 47-53.
[8]	SHI Jingjian， ZHOU Wentao， ZHANG Ning， CHEN Qiao， LIU Jintao，CAO Zhenbo， CHEN Yi， SONG Hang， LIU Youbo. Deep Reinforcement Learning Algorithm of Voltage Regulation in Distribution Network with Energy Storage System [J]. Electric Power Construction, 2020, 41(3): 71-78.
[9]	SHEN Qingwen， CHENG Ruofa， FU Xin. Optimization Configuration Method of Distributed Power Supply Considering Vulnerability Index [J]. Electric Power Construction, 2020, 41(3): 54-61.
[10]	REN Junzhi， CHEN Jian， JIANG Xinyi， SUN Xuri， ZHANG Song， LI Wensheng. Post-Disaster Recovery Strategy of Resilient Distribution Network Considering Mobile Energy Storage System and Network Reconfiguration [J]. Electric Power Construction, 2020, 41(3): 86-92.
[11]	HAN Jun， YUAN Dong， XIE Zhenjian， HE Jinwei， LIU Liguo， DU Jian， CAI Chao. Comparison of Typical Configuration Characteristics and Application Mode of AC/DC Hybrid Distribution Network [J]. Electric Power Construction, 2020, 41(3): 93-99.
[12]	SHEN Weidong， FU Shouqiang， LI Hongjian1， ZHAO Guoliang3， GAO Yang. System Design of AC and DC Distribution Network Based on Flexible Substation#br# [J]. Electric Power Construction, 2020, 41(3): 100-109.
[13]	LIAO Hongtu， HUANG Yihong， SHI Yizhi， CHEN Jian. A Bi-Level Two-Stage Robust Optimal Operation Strategy for AC and DC Distribution Network with Photovoltaic and Energy Storage [J]. Electric Power Construction, 2020, 41(3): 110-118.
[14]	DAI Songling， WANG Xi， LIU Fang， LEI Yunkai， OUYANG Xuetong， WEN Fengrui， LI Huaqiang. Optimal Scheduling and Operating of Active Distribution Network Considering Comprehensive Carrying Capacity [J]. Electric Power Construction, 2020, 41(2): 67-75.
[15]	CHEN Jingwen， ZHANG Wenqian， LI Xia. Research on Charging and Discharging Control Strategy of Hybrid Battery in Household Photovoltaic Power Station [J]. Electric Power Construction, 2020, 41(2): 101-1078.