《电力自动化设备》

引用本文:	雷成,刘俊勇,魏震波,刘友波,高艺文,苟竞.计及网络传导能力与抗干扰能力的节点综合脆弱评估模型[J].电力自动化设备,2014,34(7):
	LEI Cheng,LIU Junyong,WEI Zhenbo,LIU Youbo,GAO Yiwen,GOU Jing.Integrative evaluation model of node vulnerability considering network transmission ability and anti-interference ability[J].Electric Power Automation Equipment,2014,34(7):

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计及网络传导能力与抗干扰能力的节点综合脆弱评估模型
雷成, 刘俊勇, 魏震波, 刘友波, 高艺文, 苟竞
四川大学电气信息学院，四川成都 610065

摘要:

网络元件受扰动后所表现出的脆弱程度是自身抗干扰能力与网络传导能力的综合表现。从元件间关联性出发，在熵权度数的基础上，考虑系统潮流分布情况和全局功率传输特性，构建以线路潮流与电气介数乘积为边权的改进熵权度数。同时结合节点负荷水平，提出网络传导能力模型，由此定义节点的网络重要性；根据系统安全裕度和元件关联作用，提出考虑线路过负荷以及节点失压危险的元件抗干扰能力模型，由此定义节点的故障风险性。采用综合脆弱评估模型对计及网络传导能力与抗干扰能力的节点脆弱性进行仿真计算，结果表明：所提模型在辨识元件脆弱时精准度更高，能更有效地反映系统节点在网络中的重要程度与抗扰程度，验证了模型的合理性和有效性。

关键词: 电力系统网络传导能力抗干扰能力脆弱性评估风险安全模型

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基金项目:国家自然科学基金资助项目（50977059）；中央高校基本科研业务费专项资金资助项目（2011SCU11063）；四川省科技厅产业发展重大关键技术项目（2011GZ0225）

Integrative evaluation model of node vulnerability considering network transmission ability and anti-interference ability

LEI Cheng, LIU Junyong, WEI Zhenbo, LIU Youbo, GAO Yiwen, GOU Jing

School of Electrical Engineering and Information，Sichuan University，Chengdu 610065，China

Abstract:

The vulnerability degree of network component in perturbation is shown by its anti-interference ability and network transmission ability. According to the correlation among components，an improved entropy degree is constructed，which takes the product of line power flow and electric betweenness as its edge weight and considers the system power flow distribution and global power transmission characteristics. A network transmission ability model is proposed to define the network importance of a node based on its load level and a component anti-interference ability model considering the line overload and node voltage loss risk is proposed to define the failure risk of a node according to the system security margin and the correlations among components. An integrative evaluation model is applied to calculate the node vulnerability considering the network transmission ability and anti-interference ability and the simulative results show that，the pro-posed model identifies the vulnerable components more precisely and reflects the importance degree and anti-interference degree of system nodes more effectively，verifying its rationality and effectiveness.

Key words: electric power systems network transmission ability anti-interference ability vulnerability evaluation risks security models

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