偏远地区小电网与主网解列后高频高压风险及抑制策略

滕予非; 张华; 汤凡; 丁理杰; 宁联辉

引用本文:	滕予非,张华,汤凡,等.偏远地区小电网与主网解列后高频高压风险及抑制策略[J].电力系统保护与控制,2015,43(1):129-136.
	TENG Yufei,ZHANG Hua,TANG Fan,et al.Over-frequency and overvoltage risk of isolated small power grid in remote area and its suppression strategy[J].Power System Protection and Control,2015,43(1):129-136

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偏远地区小电网与主网解列后高频高压风险及抑制策略
滕予非¹, 张华¹, 汤凡¹, 丁理杰¹, 宁联辉²
1.国网四川省电力公司电力科学研究院，四川成都 610072;2.西安交通大学，陕西西安 710049

摘要:

随着无电地区电网的建设，大量具有小机组、轻负荷特性的偏远地区小电网逐渐通过极长的联络线路与主网相连。一旦由于故障等因素，这些小电网与主网解列而转为孤网运行时，小电网中过剩的有功功率以及充电无功极有可能导致严重的高频高压风险，造成设备以及负荷的损毁。首先，结合四川某藏区电网，对小电网与主网解列后的高频高压现象进行了研究，分析了高频高压现象出现的机理。其次，探讨了电网内发电机调速、励磁装置的控制方式以及负荷特性对高频高压风险的影响。最后，在分析传统抑制策略所存在不足的基础上，提出了一种基于高周解列的偏远地区电

关键词: 高频过电压充电无功孤网运行抑制策略

DOI：10.7667/j.issn.1674-3415.2015.01.022

分类号:

基金项目:国家自然科学基金项目(51307136)

Over-frequency and overvoltage risk of isolated small power grid in remote area and its suppression strategy

TENG Yufei¹, ZHANG Hua¹, TANG Fan¹, DING Lijie¹, NING Lianhui²

1.State Grid Sichuan Electrical Power Research Institute, Chengdu 610072, China;2.Xi’an Jiaotong University, Xi’an 710049, China

Abstract:

As the expansion of the power grid, many small power grids in remote areas with small generators and light loads are connected to the main grid through very long transmission lines. Once such a small power grid is split from the main power grid due to a certain fault, over-frequency and overvoltage is very likely to occur due to its excessive real power or capacitive reactive power, which could damage power equipments and local loads. First, the mechanism of over-frequency and overvoltage and their interaction in an isolated small power grid are analyzed. And then the influences of generator speed governor and excitation system as well as load characteristics on over-frequency and overvoltage are also introduced. Finally, a new suppression strategy is proposed for over-frequency and overvoltage of the isolated small power grid in remote area. Simulation results verify the effectiveness of the proposed suppression strategy.

Key words: over-frequency overvoltage capacitive reactive power isolated operation suppression strategy

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