基于云计算的多源电力系统控制策略研究被引量：3

Research on Control Strategy of Multi-source Power System Based on Cloud Computing

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摘要随着现代电力的迅速发展,构建多种能源互补的发电形式和智能控制的互联电网结构逐渐成为了一种趋势。为了实现更高效的资源配置以及协调控制,可采用云计算来搭建实现多源电力系统控制的平台。讨论了多源电力系统的特点及具体实现时的影响因素,分析了单一能源系统控制的不足及多能源系统适宜未来长期应用的合理性;对比讨论了单一能源及多能源供电时,在供电质量、系统稳定、资源利用和调控手段等方面的差异。阐述了现行控制策略经优化及引入云计算后,在克服孤岛效应、促进电网安全运行、实时监测系统工况等方面的应用。 With the rapid development of modern electric power,it has become a trend to construct multi-energy complementary forms of power generation and intelligently controlled interconnection network structure.In order to realize more efficient resource allocation and coordinated control,cloud computing can be used to build a platform to realize multi-source power system control.The characteristics of multi-source power system and the factors affecting its realization are discussed.The deficiency of single energy system control and the rationality of multi-source power system suitable for long-term application in the future are analyzed.The differences in power supply quality,system stability,resource utilization and control measures between single and multi-energy sources are discussed.The optimization of the current control strategy and the application of cloud computing in overcoming the island effect,promoting the safe operation of power grid,real-time monitoring system conditions and other aspects are introduded.

作者耿鑫闫群民徐文韬肖冬雪 GENG Xin;YAN Qunmin;XU Wentao;XIAO Dongxue(School of Electric Power Engineering,Shaanxi University of Technology,Hanzhong 723000,China)

机构地区陕西理工大学电气工程学院

出处《电工技术》 2021年第8期45-47,共3页 Electric Engineering

基金陕西省大学生创新创业计划训练项目“基于云计算的多源电力系统控制策略研究”(编号S202010720087)。

关键词多源电力系统云计算协调控制 multi-source power system cloud computing coordinated control

分类号 TM732 [电气工程—电力系统及自动化]

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参考文献7

1戴丽媛,徐泰山,汪马翔,王昊昊,段慧.多源电网协调实时控制技术综述[J].电力科学与工程,2017,33(5):16-23. 被引量：7
2王昊昊,周天,赵宇,汪马翔,张昊天,李吉晨.大规模可再生能源电网多源实时互补有功控制的评述[J].现代电力,2019,36(4):1-10. 被引量：6
3申燕萍,顾苏杭,郑丽霞.基于云计算平台的仿生优化聚类数据挖掘算法[J].计算机科学,2019,46(11):247-250. 被引量：25
4常垚,程林,李洪涛,黄仁乐,田浩.基于半正定松弛最优潮流的主动配电网多源协调优化控制[J].电网技术,2016,40(8):2416-2422. 被引量：16
5黄冬生,吴引航,吕翔,姜楠.多能源参与的电力主辅市场联合优化模型[J].电力需求侧管理,2019,21(6):30-34. 被引量：5
6蒲天骄,陈乃仕,王晓辉,葛贤军,李志宏,于建成.主动配电网多源协同优化调度架构分析及应用设计[J].电力系统自动化,2016,40(1):17-23. 被引量：79
7余贻鑫.面向21世纪的智能电网[J].天津大学学报（自然科学与工程技术版）,2020,53(6):551-556. 被引量：39

二级参考文献130

1张强,朱华林,蒋刚雪.水电站AGC与AVC联合优化机组功率分配的思考[J].水电自动化与大坝监测,2014,38(1):35-38. 被引量：3
2高志华,任震,黄雯莹.电力市场中调峰权及其交易机制[J].中国电机工程学报,2005,25(5):88-92. 被引量：48
3王成山,孙玮,王兴刚.含大型风电场的电力系统最大输电能力计算[J].电力系统自动化,2007,31(2):17-21. 被引量：37
4YU W,LIU D,HUANG Y,et al.Operation optimization based on the power supply and storage capacity of an active distribution network[J].Energies,2013,6(12):6423-6438.
5BORGHETTI A,BOSETTI M,GRILLO S,et al.A two-stage scheduler of distributed energy resources[C]// IEEE Lausanne Powertech Proceedings,July 1-5,2007,Lausanne,Switzerland:6p.
6CALDERARO V,CONIO G,GALDI V,et al.Active management of renewable energy sources for maximizing power production[J].International Journal of Electrical Power &- Energy Systems,2014,57(5):64-72.
7ABAPOUR S,ZARE K,MOHAMMADI-IVATLOO B.Evaluation of technical risks in distribution network along with distributed generation based on active management[J].IET Generation,Transmission Distribution,2013,8(4):609-618.
8HUANG A Q,CROW M L,HEYDT G T,et al.The future renewable electric energy delivery and management (FREEDM)system:the energy internet[J].Proceedings of the IEEE,2011,99(1):133-148.
9GHASEMI A,HOJIAT M,JAVIDI M H.Introducing a new framework for management of future distribution networks using potentials of energy hubs[C]//2nd Iranian Conference on Smart Grids,May 24-25,2012,Tehran,Iran:7p.
10KARNOUSKOS S,TERZIDIS O.Towards an information infrastructure for the future internet of energy[C]// Communication in Distributed Systems(KiVS),2007 ITG GI Conference,February 26-March 2,2007,Bern,Switzerland:6p.