广域保护系统数据网络可靠性评估

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摘要本文提出一种广域保护系统数据网络可靠性评估方法.通过对系统硬件可靠性和信息流有效性进行综合评估,实现整体的可靠性估计.首先通过对广域保护系统数据网络典型层次结构,建立故障树可靠性模型,基于此对相量测量单元本地网络和骨干网络进行硬件可靠性评估.其次,考虑相量测量单元数据信息流和控制中心控制命令信息流.最后通过算例进行了量化评估,结果证明广域保护系统数据网络可靠性不仅取决于通信元件的可靠性,同时取决于相量数据集中器(PDC)参数设置和控制命令发送机制.

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	李俊刚
	张爱民
	张杭
	刘星
	耿英三
	魏勇

关键词 ：广域保护系统, 骨干网络, 相量数据集中器, 信息流

Abstract：A circulation reliability evaluation method is presented for the wide area protect system(WAPS) in the paper. The whole WAPS modeled using a hierarchical structure, the reliability model based on fault tree analysis is established. And then the reliability of the PMUs local network and backbone network are discussed. Finally, take into account the reliability of phasor measurement units(PMUs) phasor data information flow and control command information flow. A case of WAPS is analyzed to summarize the effect factors of its quantitative evaluation. The result shows that the reliability of the WAPS depends not only on the reliability of its communication components, but also on the PDC parameter and control command transmission mechanism.

Key words： WAPS reliability backbone network PDC information flow

收稿日期: 2014-01-21 出版日期: 2015-09-14

PACS:

TM315

作者简介: 李俊刚男,1981年生,博士研究生,工程师,研究方向为智能化变电站系统以及相关产品研究.张爱民女,1962年生,教授,博士生导师,研究方向为智能电网新技术,电量测量技术和自适应控制.

引用本文:

李俊刚,张爱民,张杭,刘星,耿英三,魏勇. 广域保护系统数据网络可靠性评估[J]. 电工技术学报, 2015, 30(12): 344-350. Li Jungang,Zhang Aimin,Zhang Hang,Liu Xing,Geng Yingsan,Wei Yong. Reliability Evaluation of the Wide Area Protect System. Transactions of China Electrotechnical Society, 2015, 30(12): 344-350.

链接本文:

https://dgjsxb.ces-transaction.com/CN/Y2015/V30/I12/344

[1] Joachim Bertsch. Wide-area protection and power system utilization[J]. Proceedings of the IEEE, 2005, 5(93): 1006-1011.
[2] 丁伟, 何奔腾, 王慧芳. 广域继电保护系统研究综述[J]. 电力系统保护与控制, 2012, 40(1): 145-155. Ding Wei, He Benteng. Overview of wide-area relaying protection system[J]. Power System Protection and Control, 2012, 40(1): 145-155.
[3] 朱林, 段献忠, 苏盛. 基于证据理论的数字化变电站继电保护容错方法[J]. 电工技术学报, 2011, 26(1): 154-161. Zhu Lin, Duan Xianzhong, Su Sheng. Evidence theory based fault-tolerant method for protective relays in digital substations[J]. Transactions of China Electrotech- nical Society, 2011, 26(1): 154-161.
[4] 姜宪国, 王增平. 区域自治式后备保护分区方案[J]. 电工技术学报, 2013, 28(1): 234-241. Jiang Xianguo, Wang Zengping. Zoning scheme of regional autonomy backup protection[J]. Transactions of China Electrotechnical Society, 2013, 28(1): 234- 241.
[5] 汪旸, 尹项根, 张哲, 等. 基于遗传信息融合技术的广域继电保护[J]. 电工技术学报, 2012, 27(8): 174-179. Wang Yang, Yin Xiang gen, Zhang Zhe, et al. Wide area protection based on genetic information fusion technology[J]. Transactions of China Electrotechnical Society, 2012, 27(8): 174-179.
[6] 李振兴, 尹项根, 张哲, 等. 基于多Agent的广域保护系统体系研究[J]. 电力系统保护与控制, 2012(4): 71-75. Li Zhenxing, Yin Xianggen, Zhang Zhe, et al. Hierarchy of wide area protection system based on multi-agent [J]. Power System Protection and Control, 2012(4): 71-75.
[7] 马静, 曾惠敏, 林小华. 基于广域信息多端高压输电区域后备保护[J]. 电力系统保护与控制, 2012(11): 61-69. Ma Jing, Zeng Huimin, Lin Xiaohua. A novel wide area backup protection for multi-terminal transmission lines system[J]. Power System Protection and Control, 2012(11): 61-69.
[8] Adamiak M G, Apostolov A P, Begovic M M, et al. Wide area protection—technology and infrastructures [J]. IEEE Trans. Power Del., 2006, 2(21): 601-609.
[9] Mohammad Shahraeini, Mohammad Hossein Javidi, Mohammad Sadegh Ghazizadeh. Comparison between communication infrastructures of centralized and decen- tralized wide area measurement systems[J]. IEEE Transactions on Smart Grid, 2011, 1(2): 206-211.
[10] Dai ZhiHui, Wang Zengping, Jiao Yanjun. Reliability evaluation of the communication network in wide- area protection[J]. IEEE Trans. Power Del, 2011, 4(26): 2523-2530.
[11] Wang Yang, Li Wenyuan, Lu Jiping. Reliability analysis of wide-area measurement system[J]. IEEE Trans. Power Del., 2010, 3(25): 1483-1491.
[12] Vladimir Terzija, Gustavo Valverde, Deyu Cai, et al. Wide-area monitoring, protection, and control of future electric power networks[J]. Proceedings of the IEEE, 2011, 1(99): 80-93.
[13] IEEE C37. 118—2005. IEEE standard for synchro- phasors for power systems[S]. 2005.
[14] Han Y, et al. August 14th blackout in the US and propose for Chinese power system to improving stability and security[J]. Elect. Equipment, 2004, 5: 8-12.
[15] Billinton R, Allan R N. Reliability evaluation of engineering system[M]. 2nd ed. New York: Plenum, 1994.
[16] Wang Yang, Li Wenyuan, Lu Jiping. Evaluating multiple reliability indices of regional networks in wide area measurement system[J]. Electric Power Systems Research, 2009, 79: 1353-1359.
[17] Du M. The application of optical fiber ring protection in south electric power network[J]. Telecommun. Elect. Power Syst., 2003, 24: 1-4.
[18] Naduvathuparambil B, Valenti M C, Feliachi A. Communication delays in wide area measurement systems[J]. In Proc. 34th Southeastern Symp. System Theory, 2002: 118-122.
[19] Moustafa Chenine, Lars Nordström. Modeling and simulation of wide-area communication for centralized PMU-based applications[J]. IEEE Transactions on Power Delivery, 2011, 3(26): 1372-1380.
[20] Zhu Kun, Moustafa Chenine, Lars Nordström. ICT Architecture impact on wide area monitoringand control systems’ reliability[J]. IEEE Transactions on Power Delivery, 2011, 4(26): 2801-2808.
[21] Wu H, Tsakalis K, Heydt G. Evaluation of time delay effects to wide-area power system stabilizer design[J]. IEEE Trans. Power Del. J, 2004, 4(19): 1935-1941.
[22] 李俊刚, 张爱民. 区域层次化保护系统研究与设计[J]. 电力系统保护与控制, 2014(11): 34-40. Jungang li, Zhang Aimin. Research and design of zone area hierarchical protection system[J]. Power System Protection and Control, 2014(11): 34-40.
[23] Wang Y, Li W, Lu J. Reliability analysis of phasor measurement, unit using hierarchical Markov modeling [J]. Elect. Power Compon. Syst., 2009, 35: 517-532.
[24] Antonopoulos A, o’Reilly J J, Lane P. A framework for the availability assessment of SDH transport networks[J]. In Proc. 2nd IEEE, Symp. Computers and Communications, Alexandria, Egypt, 1997: 666- 670.
[25] Chenine M, Karam E, Nordström L. Modeling and simulation, of wide area monitoring and control systems in ip-based networks[C]. IEEE Power Eng. Soc. Gen. Meeting, Calgary, AB, Canada, 2009.
[26] Chenine M, Nordström L. Investigation of communica- tion delays, and data incompleteness in multi-pmu wide area monitoring and control systems[C]. Int. Conf. Electric Power and Energy Conversion Systems Sharjah, United Arab Emirates, 2009.