主从结构的交直流混合微电网综合控制策略

汪宝; 匡洪海; 郑丽平; 丁晓薇; WANG Bao; KUANG Honghai; ZHENG Liping; DING Xiaowei

doi:10.16513/j.cnki.10-1427/tk.2018.03.007

PDF(1962 KB)

分布式能源 ›› 2018, Vol. 3 ›› Issue (3) : 42-50. DOI: 10.16513/j.cnki.10-1427/tk.2018.03.007

主从结构的交直流混合微电网综合控制策略

作者信息 +

Comprehensive Control Strategy of Hybrid AC/DC Microgrid Based on Master-Slave Structure

Author information +

文章历史 +

摘要

Taking into account the deficiencies of single AC microgrid and single DC microgrid in terms of system control and convenient AC/DC load supply, according to a hybrid AC/DC microgrid with a master/slave structure, the AC side energy storage converter is set as the main control unit, and the liaison converter is set as slave units. On the basis of analyzing the control strategies of each unit of the system, a comprehensive system control strategy is studied based on the system power balance. Through the power stabilization of the system energy storage device, the corresponding control strategy is adopted to realize the power stability of the hybrid AC/DC microgrid under different operating modes. The simulation and verification of the model and its control strategy are performed through simulation.

关键词

主从结构 / 交直流混合微电网 / 综合控制 / master-slave structure / hybrid AC/DC microgrid / comprehensive control

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用

汪宝, 匡洪海, 郑丽平, 等. Comprehensive Control Strategy of Hybrid AC/DC Microgrid Based on Master-Slave Structure[J]. 分布式能源. 2018, 3(3): 42-50 https://doi.org/10.16513/j.cnki.10-1427/tk.2018.03.007

[J]. Distributed Energy Resources. 2018, 3(3): 42-50 https://doi.org/10.16513/j.cnki.10-1427/tk.2018.03.007

中图分类号： TK 01 TM 76

参考文献

列表( 原文顺序 | 文献年度倒序 | 文中引用次数倒序 ) 可视化分析

[1]	陈宇豪，王磊，杨宇，等. 风储直流微网孤岛运行控制研究[J]. 分布式能源， 2016, 1(1):40-46. CHEN Yuhao, WANG Lei, YANG Yu, et al. Study on islanding operation control of wind-storage DC microgrid[J]. Distributed Energy, 2016, 1(1):40-46. 本文引用 [1]

[2]	李强，胥永利，王凤军. 风光互补微电网的建模及最大功率跟踪控制策略[J]. 分布式能源， 2016, 1(2):50-54. LI Qiang, PEI Yongli, WANG Fengjun. Modeling of wind-solar hybrid microgrid and its maximum power tracking control strategy[J]. Distributed Energy, 2016, 1(2):50-54. 本文引用 [1]

[3]	LIU X, WANG P, LOH P C. A hybrid AC/DC microgrid and its coordination control[J]. IEEE Transactions on Smart Grid, 2011, 2(2):278-286. 本文引用 [1]

[4]	SAHOO M, KUMAR K S. Bidirectinal switched boost converter for AC-DC hybrid microgrid[C]//IEEE Applied Power Electronics Conference and Exposition-Apec. America: IEEE, 2014: 2231-2236. 本文引用 [1]

[5]	KHATIBZADEH A, BESMI M, MAHABADI A, et al. Multi-agent-based controller for voltage enhancement in AC/DC hybrid microgrid using energy storages[J]. Energies, 2017, 10(2):169. 本文引用 [1]

[6]	郭振，乐全明，郭力，等. 交直流混合微电网中直流母线电压纹波抑制方法[J]. 电网技术， 2017, 41(9):2896-2904. GUO Zhen, LE Quanming, GUO Li, et al. DC bus voltage ripple suppression method in AC/DC hybrid microgrid[J]. Power System Technology, 2017, 41(9):2896-2904. 本文引用 [1]

[7]	蔡冰倩，贾利虎，朱永强，等. 新型交直流混合微电网结构设计[J]. 电力系统保护与控制， 2017, 45(2):147-154. CAI Bingqian, JIA Lihu, ZHU Yongqiang, et al. Structural design of a new hybrid AC/DC power grid[J]. Power System Protection and Control, 2017, 45(2):147-154. 本文引用 [1]

[8]	丁明，田龙刚，潘浩，等. 交直流混合微电网运行控制策略研究[J]. 电力系统保护与控制， 2015, 43(9):1-8. DING Ming, TIAN Longgang, PAN Hao, et al. Research on control strategy of hybrid AC/DC microgrid[J]. Power System Protection and Control, 2015, 43(9):1-8. 本文引用 [1]

[9]	陆晓楠，孙凯，JOSEP G, 等. 适用于交直流混合微电网的直流分层控制系统[J]. 电工技术学报， 2013, 28(4):35-42. LU Xiaonan, SUN Kai, JOSEP G, et al. DC hierarchical control system for microgrid applications[J]. Transactions of China Electrotechnical Society, 2013, 28(4):35-42. 本文引用 [1]

[10]	林子杰，卫志农，孙国强，等. 基于虚拟同步电机的交直流混合微电网控制策略[J]. 中国电机工程学报， 2017, 37(2):424-432. LIN Zijie, WEI Zhinong, SUN Guoqiang, et al. A novel control strategy of AC/DC converter in hybrid microgrid based on virtual synchronous generator[J]. Proceedings of the CSEE, 2017, 37(2):424-432. 本文引用 [1]

[11]	周稳，戴瑜兴，毕大强，等. 交直流混合微电网协同控制策略[J]. 电力自动化设备， 2015, 35(10):51-57. ZHOU Wen, DAI Yuxing, BI Daqiang, et al. Coordinative control strategy for hybrid AC-DC microgrid[J]. Electric Power Automation Equipment, 2015, 35(10):51-57. 本文引用 [1]

[12]	唐磊，曾成碧，苗虹，等. 交直流混合微电网中AC/DC双向功率变流器的新控制策略[J]. 电力系统保护与控制， 2013, 41(14):13-18. TANG Lei, ZENG Chengbi, MIAO Hong, et al. One novel control strategy of the AC/DC bi-directional power converter in micro-grid[J]. Power System Protection and Control, 2013, 41(14):13-18. 本文引用 [1]

[13]	苏小玲，韩民晓，JOSEP M G, 等. 基于SMC的交直流混合微电网接口换流器控制策略[J]. 科技导报， 2016, 34(2):299-304. SU Xiaoling, HAN Minxiao, JOSEP M G, et al. Control system for AC/DC hybrid microgrid interface convertor based on SMC[J]. Science & Technical Review, 2016, 34(2):299-304. 本文引用 [1]

[14]	毕大强，周稳，戴瑜兴，等. 交直流混合微电网中储能变流器无缝切换策略[J]. 电力系统自动化， 2016, 40(10):84-89. BI Daqiang, ZHOU Wen, DAI Yuxing, et al. Control strategies of seamless switching for energy storage converter in hybrid AC/DC microgrid[J]. Automation of Electric Power Systems, 2016, 40(10):84-89. 本文引用 [1]

[15]	李霞林. 交直流混合微电网稳定运行控制[D]. 天津：天津大学， 2014. LI Xialin. Stable operation control of AC/DC hybrid microgrid[D]. Tianjin: Tianjin University, 2014. 本文引用 [1]