变压器多侧励磁涌流产生机理及对差动快速动作区影响研究

姚东晓; 邓茂军; 倪传坤; 王立德; 马和科; 吕利娟; 黄继东

引用本文:	姚东晓,邓茂军,倪传坤,等.变压器多侧励磁涌流产生机理及对差动快速动作区影响研究[J].电力系统保护与控制,2016,44(5):36-41.
	YAO Dongxiao,DENG Maojun,NI Chuankun,et al.Transformer's multi-side inrush current generation mechanism and its influence on the differential protection's fast action zone[J].Power System Protection and Control,2016,44(5):36-41

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变压器多侧励磁涌流产生机理及对差动快速动作区影响研究
姚东晓¹, 邓茂军¹, 倪传坤¹, 王立德², 马和科¹, 吕利娟¹, 黄继东¹
1.许继电气股份有限公司，河南许昌 461000;2.国网湖南省电力公司检修公司，湖南长沙 410000

摘要:

多侧励磁涌流特征类似区内故障，容易造成变压器差动保护快速动作区误动作。研究了两种多侧励磁涌流产生的机理并分析了其对不同类型差动保护快速动作区的影响。第一，变压器高压侧空投致铁芯饱和时高压侧和低压绕组中均产生励磁涌流的机理及其对分相差快速动作区的影响；第二，自耦变区外故障切除致铁心饱和时高、中压侧及低压绕组均出现励磁涌流的机理及其对纵差快速动作区的影响。基于对两种励磁涌流产生机理及特征的分析，提出分相差不宜配置快速动作区，而纵差快速动作区判据也应采取防误措施，并提出了具体防误方案。经多次实验验证，该方案可有效防止纵差快速动作区误动作。

关键词: 变压器多侧励磁涌流差动保护快速动作区恢复性涌流区内故障

DOI：10.7667/PSPC150874

分类号:

基金项目:

Transformer's multi-side inrush current generation mechanism and its influence on the differential protection's fast action zone

YAO Dongxiao¹, DENG Maojun¹, NI Chuankun¹, WANG Lide², MA Heke¹, LÜ Lijuan¹, HUANG Jidong¹

1.XJ Electric Co., Ltd., Xuchang 461000, China;2.Maintenance Company of State Grid Hunan Electric Power Corporation, Changsha 410000, China

Abstract:

Multiple sides' inrush currents of transformer are similar to inside fault currents, which is likely to cause the differential protection's fast action zone malfunction. This paper studies two multi-side inrush current's mechanism and analyzes the effects on two different types of differential protection fast action zones. First, the inrush current's mechanism generated from high-side and low-side windings when closing the high-side breaker without load led to core saturation and its effect on phase differential protection fast action zone; second, the inrush current's mechanism generated from high-side, mid-side and low-side windings when cutting off the outside region fault led to core saturation and its effect on longitudinal differential protection fast action zone. Based on the analysis of two inrush current generation mechanism and characteristics, it puts out that the winding differential protection should not deploy fast action zone, and the longitudinal differential protection's fast action zone should add error prevention measures. And it puts forward specific improvement program which has been proven to prevent malfunction in many experiments.

Key words: transformer multi-side inrush current differential protection fast action zone restorative surge fault zone

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