不同水分含量油浸纸板沿面放电发展过程及特性

doi:10.3969/j.issn.0258-2724.20190210

基金项目:国家重点研发计划（2017YFB0902704）

详细信息

作者简介:
吴广宁（1969—），男，教授，研究方向为高电压与绝缘技术，E-mail：gnwu@home.swjtu.edu.cn

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出版历程
- 收稿日期:2019-04-02
- 修回日期:2019-06-09
- 网络出版日期:2019-09-16
- 刊出日期:2020-06-01

Discharge Development and Characteristics of Oil-immersed Pressboard Surface with Different Moisture Contents

摘要

摘要:电力变压器内部水分增加将严重影响油纸绝缘性能，导致绝缘纸板表面更容易出现沿面放电故障. 为了研究交流电压下不同水分含量绝缘纸板的沿面放电特性，建立了典型的针板沿面放电模型. 基于脉冲电流法实时测量沿面放电模型的放电特征图谱，同时采用高速相机记录绝缘纸板上白斑形成和发展过程. 分析了不同水分含量纸板起始放电电压和闪络电压的变化趋势，以及沿面放电特征参数变化趋势. 分析结果表明：纸板含水量的增加导致起始放电电压显著降低；不同水分含量纸板的沿面放电和白斑形成发展过程均可划分为4个阶段，沿面放电过程和白斑形成发展的4个阶段存在一一对应关系；通过观察分析绝缘纸板微观结构，发现试验后的纸板纤维严重断裂，且纸板中水分含量越高，纸板表面受损害越严重，纸板含水量从小于0.5%增加到3.8%时，起始放电电压下降了61.3%.
- 沿面放电/
- 水分含量/
- 放电特性/
- 白斑/
- 微观形貌
Abstract:The increase of moisture content in power transformer will seriously affect the insulation performance of oil-paper, more easily resulting in the surface discharge fault of insulated pressboard. In order to study the discharge characteristics of insulated pressboard with different moisture contents under AC condition, a typical model of needle board surface discharge was established. Based on the pulse current method, the characteristic charts of the surface discharge model were measured in real time, and a high-speed camera was used to record the formation and development of white mark on insulated pressboard. The variation trend of initial discharge voltage and flashover voltage under different moisture contents of pressboard was analyzed, and then that of the related discharge characteristic parameters was analyzed. The results show that the increase of moisture content in pressboard significantly reduces the onset voltage. The process of surface discharge and white mark formation and development on pressboard with different moisture contents can be divided into four stages. There is a one-to-one relationship between the four stages of surface discharge and white mark formation and development. By observing and analyzing the microstructure of insulated pressboard, it is found that the fibers of the pressboard were severely broken after tests. The higher the moisture content of the pressboard before tests, the more serious the damage to the surface of the pressboard. When the moisture content of pressboard increases from less than 0.5% to 3.8%, the initial discharge voltage decreases by 61.3%.
- surface discharge/
- moisture content/
- discharge characteristics/
- white mark/
- microstructure

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图 1试验回路

Figure 1.Test circuit

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图 2针板沿面放电模型结构图和实物图

Figure 2.Structure diagram and physical picture of needle board model

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图 3局部放电特征参数随电压变化情况

Figure 3.Relationship between partial discharge characteristics and supply voltage

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图 4针板沿面放电模型的局部放电四个阶段的PRPD图谱

Figure 4.PRPD patterns for four stages in needle board discharge model

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图 5绝缘纸板上白斑形成发展过程

Figure 5.Formation and development of white mark on pressboard surface

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图 6不同水分含量纸板试验后表面微观形貌（1 000倍放大）

Figure 6.Surface micrograph of pressboard with different water contents after tests (1 000 times)

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表 1处理后变压器油各项参数

Table 1.Parameters of transformer oil after filtering

属性	指标	实测值	试验标准
水分含量/ ×10⁻⁶	≤ 30	14	GB/T 7600—2014
击穿电压/kV	≥ 30	71	GB/T 507—2002
介质损耗	≤ 0.005 0	0.000 8	GB/T 5654—2007
界面张力/ （mN•m⁻¹）	≥ 40	46	GB/T 6541—1986
酸值/（mg•g⁻¹）	≤ 0.010 0	0.007	NB/SH/T 0836—2010

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表 2纸板水分含量对起始放电电压和闪络电压的影响

Table 2.Effect of moisture content in pressboard on initial discharge voltage and flashover voltage

水分含量/%	起始放电电压/kV		闪络电压/kV
水分含量/%	平均值	标准差	平均值	标准差
< 0.5	31	1.91	63	0.48
1.1	28	1.41	61	0.98
1.5	23	2.33	59	0.33
1.9	17	1.77	58	0.47
2.4	14	1.64	57	0.28
3.8	12	2.63	57	0.44

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表 3不同电压下纸板中水分含量对放电功率的影响

Table 3.Effect of moisture content in pressboard on discharge power under different voltages

电压/kV	水分含量/%	放电功率/nW
15	< 0.5	0
	1.1	0
	1.5	0
	1.9	0
	2.4	0
	3.8	467
25	< 0.5	0
	1.1	0
	1.5	0
	1.9	1 221
	2.4	1 954
	3.8	2 650
35	< 0.5	10 412
	1.1	12 530
	1.5	15 460
	1.9	17 235
	2.4	20 645
	3.8	21 930

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