• HOME
  • About Journal
    • Historical evolution
    • Journal Honors
  • Editorial Board
    • Members of Committee
    • Director of the Committee
    • President and Editor in chief
  • Submission Guide
    • Instructions for Authors
    • Manuscript Processing Flow
    • Model Text
    • Procedures for Submission
  • Academic Influence
  • Open Access
  • Ethics&Policies
    • Publication Ethics Statement
    • Peer Review Process
    • Academic Misconduct Identification and Treatment
    • Advertising and Marketing
    • Correction and Retraction
    • Conflict of Interest
    • Authorship & Copyright
  • Contact Us
  • Chinese
Site search        
文章摘要
基于模型预测控制的微电网多目标协调优化
Multi Objective Coordination Cptimization of Microgrid Based on Model Predictive Control
Received:August 21, 2018  Revised:August 21, 2018
DOI:10.19753/j.issn1001-1390.2019.022.008
中文关键词: 微电网  模型预测控制  有功无功协调调度
英文关键词: microgrid  model predictive control  active and reactive power coordinated scheduling
基金项目:安徽大学工业节电与电能质量控制省级协同创新中心开放课题(KFKT201704);安徽省教育厅自然科学研究重点项目(KJ2017A861);国家青年自然科学(51607002)。
Author NameAffiliationE-mail
ZHOU Cheng* Anhui Institute of International Business zxc_241@126.com 
RUI Tao Collaborative Innovative Center of Industrial Energy-saving and Power Quality Control,Anhui University Hefei 215902279@qq.com 
WANG Qunjing Collaborative Innovative Center of Industrial Energy-saving and Power Quality Control,Anhui University Hefei 3352964751@qq.com 
Hits: 1517
Download times: 542
中文摘要:
      本文针对间歇性可再生能源出力与随机性负荷需求对弱电网环境下微电网电压稳定性的影响,综合考虑可控型分布式能源运行成本、储能系统运行成本及可平移负荷的调度成本,以微电网公共点电压偏差最小与运行成本最低为目标,提出基于模型预测控制的微电网多目标协调优化控制策略。该策略由日内多时段滚动优化控制与实时反馈校正控制两部分组成。其中,日内多时段滚动优化控制以未来时段的预测模型为基础,求取当前时段各可控单元的优化控制指令;反馈校正阶段以储能系统出力调整量最小为目标,快速响应微电网内可再生能源能源出力变化与负荷波动。最后,通过一个仿真案例对所提策略进行验证,并分析了该策略的可行性和有效性。
英文摘要:
      
View Full Text   View/Add Comment  Download reader
Close
  • Home
  • About Journal
    • Historical evolution
    • Journal Honors
  • Editorial Board
    • Members of Committee
    • Director of the Committee
    • President and Editor in chief
  • Submission Guide
    • Instructions for Authors
    • Manuscript Processing Flow
    • Model Text
    • Procedures for Submission
  • Academic Influence
  • Open Access
  • Ethics&Policies
    • Publication Ethics Statement
    • Peer Review Process
    • Academic Misconduct Identification and Treatment
    • Advertising and Marketing
    • Correction and Retraction
    • Conflict of Interest
    • Authorship & Copyright
  • Contact Us
  • 中文页面
Address: No.2000, Chuangxin Road, Songbei District, Harbin, China    Zip code: 150028
E-mail: dcyb@vip.163.com    Telephone: 0451-86611021
© 2012 Electrical Measurement & Instrumentation
黑ICP备11006624号-1
Support:Beijing Qinyun Technology Development Co., Ltd