文章摘要
刘梦璇1 ,郭力1 ,王成山1 ,赵波2 ,张雪松2 ,刘云3.风光柴储孤立微电网系统协调运行控制策略设计[J].电力系统自动化,2012,36(15):19-24. DOI: .
LIU Mengxuan1 , GUO Li1 , WANG Chengshan1 , ZHAO Bo2 , ZHANG Xuesong2 , LIU Yun3.A Coordinated Operating Control Strategy for Hybrid Isolated Microgrid Including Wind Power, Photovoltaic System, Diesel Generator, and Battery Storage[J].Automation of Electric Power Systems,2012,36(15):19-24. DOI: .
风光柴储孤立微电网系统协调运行控制策略设计
A Coordinated Operating Control Strategy for Hybrid Isolated Microgrid Including Wind Power, Photovoltaic System, Diesel Generator, and Battery Storage
DOI:
关键词: 孤岛运行  微电网  协调运行  控制策略  能量管理系统  电池寿命
KeyWords: isolated operation  microgrid  coordinated operation  control strategy  energy management system  battery lifetime
上网日期:2012-08-06
基金项目:国家重点基础研究发展计划(“973计划”)
作者单位
刘梦璇1 ,郭力1 ,王成山1 ,赵波2 ,张雪松2 ,刘云3 1.智能电网教育部重点实验室天津大学天津市 300072
2.浙江省电力试验研究院浙江省杭州市310014
3.北京四方继保自动化股份有限公司北京市 100085 
摘要:
      在考虑典型风光柴储孤立微电网主要设备运行约束条件的基础上,提出了一种风光柴储孤立微电网系统协调运行控制策略。该策略以保证孤立系统的长期稳定运行、提高系统全寿命周期的经济性为主要设计目标,利用自主研发的微电网准稳态仿真工具对典型实际孤立微电网进行仿真计算,并与美国国家能源实验室(NERL)开发的微电网仿真软件Hybrid2中的相关控制策略进行比较,验证了文中所提出控制策略的正确性和有效性。
Abstract:
      Considering the operating constraints of typical equipments in a hybrid isolated microgrid consisting of wind power, photovoltaic system, diesel generator, and battery storage, a coordinated control strategy is proposed. The control strategy aims at ensuring a long-term stable operation of the isolated microgrid and reducing the system cost over lifetime. A typical and practical isolated microgrid is simulated via a self-developed simulation tool named quasi-steady simulation and optimization tool for microgrid(QSOT-MG). The simulation results are compared with those of Hybrid2, a simulation tool developed by National Renewable Energy Laboratory(NERL) of USA. The effectiveness and correctness of the control strategy proposed are verified by comparison.
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