变电站二次电缆瞬态电磁骚扰的特征统计方法与不确定度分析

叶 海<sup>1</sup>; 李彩云<sup>2</sup>; 任旭超<sup>3</sup>; 章耀耀<sup>1</sup>; 肖 迈<sup>4</sup>; 韩学军<sup>1</sup>; 张卫东<sup>5</sup>

引用本文:	叶海,李彩云,任旭超,等.变电站二次电缆瞬态电磁骚扰的特征统计方法与不确定度分析[J].电力系统保护与控制,2023,51(15):166-174.[点击复制]
	YE Hai,LI Caiyun,REN Xuchao,et al.Statistical analysis method and uncertainty of transient electromagnetic disturbance measured on secondary cables in substations[J].Power System Protection and Control,2023,51(15):166-174[点击复制]

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变电站二次电缆瞬态电磁骚扰的特征统计方法与不确定度分析
叶海¹,李彩云²,任旭超³,章耀耀¹,肖迈⁴,韩学军¹,张卫东⁵
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(1.国网华东分部电力调度控制中心，上海 200120;2.保定电力职业技术学院(国网冀北电力有限公司技能培训中心)，河北保定 071051;3.国网江苏省电力有限公司电力调度控制中心，江苏南京 210000;4.国网江苏省电力有限公司超高压分公司，江苏南京 210000;5.华北电力大学电气与电子工程学院，北京 102206)

摘要:

针对瞬态电磁骚扰数据样本量小和分散性强的特点，结合自助统计法，提出了偏差矫正的自助置信区间估计法和多次测量不确定度的B类评估方法。首先在变电站测量了开关操作时二次电缆端口的瞬态电磁骚扰，其次应用基于自助法的随机加权原理和偏差矫正的自助置信区间估计法，得到特征参数的统计均值和置信区间。然后应用瞬态电磁骚扰多次测量不确定度的B类评估方法，得到了特征参数的不确定度。最后评估标准波形特征参数与实测波形的符合性。分析结果表明：多次测量骚扰电压峰峰值的分散性是产生不确定度的主要因素；100~300 kHz区间实测骚扰电压的上升时间显著长于100 kHz慢速阻尼振荡波；6.5~10 MHz区间实测骚扰电压的上升时间显著长于快速阻尼振荡波；实测骚扰电压波形随区间频率的增加，持续时间缩短。

关键词: 二次电缆瞬态电磁骚扰统计方法不确定度抗扰度

DOI：10.19783/j.cnki.pspc.221860

投稿时间：2022-11-26修订日期：2023-02-09

基金项目:国家重点研发计划项目资助(2016YFB0900900)

Statistical analysis method and uncertainty of transient electromagnetic disturbance measured on secondary cables in substations

YE Hai¹,LI Caiyun²,REN Xuchao³,ZHANG Yaoyao¹,XIAO Mai⁴,HAN Xuejun¹,ZHANG Weidong⁵

(1. Dispatching Control Center, East Branch of State Grid Corporation of China, Shanghai 200120, China; 2. Baoding Electric Power Vocational and Technical College (State Grid Jibei Electric Power Company Limited Skills Training Center), Baoding 071051, China; 3. Dispatching Control Center, State Grid Jiangsu Electric Power Company, Nanjing 210000, China; 4. EHV Branch, State Grid Jiangsu Electric Power Company, Nanjing 210000, China; 5. School of Electrical and Electronic Engineering, North China Electric Power University, Beijing 102206, China)

Abstract:

Because of the characteristics of transient electromagnetic disturbance characteristics like small sample and large dispersion, and combined with Bootstrap method, a bias-corrected bootstrap confidence interval estimation method and the B-type uncertainty evaluation method for multiple measurements are proposed. First, the transient electromagnetic disturbance of the secondary cable port during a switching operation is measured in the substation. Then, a random weighting method based on the Bootstrap and a self-confidence interval estimation method for deviation correction are applied to obtain the statistical mean and confidence interval of the characteristic parameters. Then the B-type uncertainty evaluation method for multiple measurements is applied to obtain the uncertainty of the characteristic parameters. Finally, the compliance between the standard waveform characteristic parameters and the measured waveform is evaluated. The results show that the dispersion of the peak-to-peak disturbance voltage from multiple measurements is the major factor in the uncertainty; the rise time of the measured disturbance voltage in the 100~300 kHz range is significantly longer than that of the 100 kHz slow damping oscillation wave; the rise time of the measured disturbance voltage in the 6.5~10 MHz range is significantly longer than that of the fast damping oscillating wave; the duration of measured disturbance voltage waveform decreases with increasing frequency of the interval.

Key words: secondary cable transient electromagnetic disturbance statistical method uncertainty immunity

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