Integrated Experimental and Simulation Investigation of Breakdown Voltage Characteristics Across Electrode Configurations in SF_(6) Circuit Breakers

This study investigates the breakdown voltage characteristics in sulfur hexafluoride(SF6)circuit breakers,employing a novel approach that integrates both experimental investigations and finite element simulations.Utilizing a sphere-sphere electrode configuration,we meticulously measured the relationship between breakdown voltage and electrode gap distances ranging from 1 cm to 4.5 cm.Subsequent simulations,conducted using COMSOL Multiphysics,mirrored the experimental setup to validate the model’s accuracy through a comparison of the breakdown voltage-electrode gap distance curves.The simulation results not only aligned closely with the experimental data but also allowed the extraction of detailed electric field strength,electric potential contours,and electric current flow curves at the breakdown voltage for gap distances extending from 1 to 4.5 cm.Extending the analysis,the study explored the electric field and potential distribution at a constant voltage of 72.5 kV for gap distances between 1 to 10 cm,identifying the maximum electric field strength.A comprehensive comparison of five different electrode configurations(sphere-sphere,sphere-rod,sphere-plane,rod-plane,rod-rod)at 72.5 kV and a gap distance of 1.84 cm underscored the significant influence of electrode geometry on the breakdown process.Moreover,the research contrasts the breakdown voltage in SF6 with that in air,emphasizing SF6’s superior insulating properties.This investigation not only elucidates the intricate dynamics of electrical breakdown in SF6 circuit breakers but also contributes valuable insights into the optimal electrode configurations and the potential for alternative insulating gases,steering future advancements in high-voltage circuit breaker technology.

基于电流监测和动态电阻分析的电容器组SF_(6)断路器电寿命评估系统

电容器组SF_(6)断路器电寿命状态监测工作对保障电网安全可靠运行意义重大。文中融合触头磨损计算方法和动态电阻分析法对SF_(6)断路器电寿命进行评估,提出SF_(6)断路器电寿命评估判据,首先基于断路器电流监测数据计算断路器触头磨损,对断路器电寿命状态进行判断预测,再利用动态电阻分析法印证判断出SF_(6)断路器的真实状态,兼顾触头磨损计算法的实时性和动态电阻法的准确性。基于所提判据,研发了一套融合触头磨损和动态电阻的SF_(6)断路器电寿命评估系统。该系统可基于断路器投切数据和动态电阻准确地评估SF_(6)断路器的电寿命,同时在人机交互界面上直观地呈现结果,为工作人员进行断路器状态检修提供辅助决策。

SF_(6)断路器触头劣化过程合闸预击穿特性研究

电容器组投切断路器触头烧蚀劣化后会改变合闸预击穿时间,这不仅会影响选相合闸效果,同时也说明预击穿电弧持续时间可作为衡量触头烧蚀状态的指标之一。建立了126 kV SF_(6)断路器灭弧室内合闸预击穿过程电—流体耦合仿真模型,研究了触头劣化过程中合闸预击穿特性,并提出了预击穿时间带电检测方法。结果表明:合闸过程中场强最大点总是出现在静弧触头表面;灭弧室内SF_(6)气体密度几乎保持不变;110 kV电压等级相电压下,触头预击穿电弧持续时间随烧蚀程度变化的试验值与仿真值吻合良好。从电场畸变角度解释了随着触头的表面烧蚀劣化程度增大对应预击穿时间的变化规律,结果可为断路器选相合闸策略和触头状态评估提供理论指导。

SF_(6)断路器模拟烧蚀过程中气体分解产物特性研究

SF_(6)断路器灭弧室中的SF_(6)、微水微氧及固体绝缘材料在电弧作用下会分解重组,生成新的组分气体。为研究SF_(6)断路器完整电寿命周期内,开断电流后各气体分解产物体积分数的变化规律,搭建了断路器全寿命模拟烧蚀试验平台,进行了69次烧蚀试验,测量了烧蚀过程中的电压电流参数和各气体分解产物体积分数。结果表明:SOF_(2)、CF_(4)、SO_(2)为主要产物,SO_(2)F_(2)、SOF_(4)体积分数较低,H_(2)S不能稳定检出;SOF_(2)、CF_(4)、SO_(2)、SO_(2)F_(2)体积分数均随烧蚀次数增加而增加。主要产物中,SOF_(2)和SO_(2)的生成量与电弧能量呈线性关系;CF_(4)生成量与电弧能量之间没有明显规律,其原因可能在于电弧对于固体绝缘材料的烧蚀具有随机性。吸附剂对SOF_(2)与SOF_(4)吸附作用显著,对其余产物未表现出明显的吸附效果。最后提出了通过SO_(2)体积分数评估断路器剩余电寿命的方法。

基于LSTM⁃MIV神经网络的SF_(6)断路器触头电寿命预测

文中基于LW30⁃40.5型SF_(6)断路器全寿命烧蚀试验数据,采用归一化异常指数F反映断路器触头剩余电寿命,0表示电寿命完备,1表示电寿命耗尽。根据断路器分闸动态电阻—行程曲线,提出了将动态电阻—行程曲线上行程大于8 mm且电阻值大于500μΩ的第一个峰值点作为断路器主触头接触阶段与弧触头接触阶段分界点。据此得到反映断路器触头异常指数F的5个特征参数,采用皮尔逊相关系数法对特征参数进行独立性分析。通过LSTM神经网络建立了基于特征参数与异常指数F之间的回归预测模型,F回归预测均方差和绝对平均误差分别为0.014921和0.013053,采用MIV方法确定了各特征参数对异常指数F影响权重。

纯SF_(6)断路器的SF_(6)/CF_(4)混合气体不停电改造方案

SF_(6)气体因其绝缘、灭弧性能优异,被广泛应用于电力设备。为满足灭弧性能要求,SF_(6)气体常以高压状态存在于电力设备内,但压力过高时,环境温度的降低极易造成其液化。近年来,冬季低温寒潮时,国网乌鲁木齐供电公司所辖设备多次出现断路器SF_(6)液化、闭锁等情况,存在断路器拒动、越级跳闸的风险。针对新疆地区极端温度造成的SF_(6)气体低温液化问题,研究利用SF_(6)/CF_(4)混合气体代替纯SF_(6)作为绝缘介质,解决纯SF_(6)气体高压状态遇低温易液化的问题,并提出了针对纯SF_(6)断路器进行混合气体不停电改造的技术方案。

变电站高压SF_(6)断路器故障分析及解决策略

高压SF_(6)断路器作为保障变电站安全、稳定运行的关键设备,在日常检修工作中应加强对SF_(6)断路器故障分析和维修工作的重视。为提升变电站高压SF_(6)断路器故障解决效率与质量,在明确高压SF_(6)断路器工作原理的基础上,深入分析SF_(6)断路器日常运行中的常见故障,并提出针对性的故障解决策略。本研究旨在维持SF_(6)断路器的稳定运行,摆脱SF_(6)断路器的故障影响,进一步推动变电站检修工作质量与效率的提升。

高压SF_(6)断路器零区电弧等离子体调控数值实验研究

为分析高压SF_(6)断路器零区电弧等离子体调控数值,以Eindhoven微观电弧模型为研究对象,探讨不同条件下电弧特性参数的变化。分别针对不同温度、压力及粒子碰撞之间的不同对电弧等离子调控数值进行分析,结果显示随着气压的升高热导率的峰值相应地被推迟到温度较高的区域才出现,并且峰值变小。非平衡态时热导率的变化趋势与平衡态相同,且随着θ的增大,热导率降低。

Study on the Mathematical Model of Dielectric Recovery Characteristics in High Voltage SF6 Circuit Breaker

According to the stream theory, this paper proposes a mathematical model of the dielectric recovery characteristic based on the two-temperature ionization equilibrium equation. Taking the dynamic variation of charged particle＇s ionization and attachment into account, this model can be used in collaboration with the Coulomb collision model, which gives the relationship of the heavy particle temperature and electron temperature to calculate the electron density and temperature under different pressure and electric field conditions, so as to deliver the breakdown electric field strength under different pressure conditions. Meanwhile an experiment loop of the circuit breaker has been built to measure the breakdown voltage. It is shown that calculated results are in conformity with experiment results on the whole while results based on the stream criterion are larger than experiment results. This indicates that the mathematical model proposed here is more accurate for calculating the dielectric recovery characteristic, it is derived from the stream model with some improvement and refinement and has great significance for increasing the simulation accuracy of circuit breaker＇s interruption characteristic.

Analysis of Arc Characteristics and Flow Field in Arc Chamber of High-Voltage SF_6 Auto-Expansion Circuit Breaker

A new magnetic hydro-dynamics model for nozzle arc emphasizing the interaction of arc with PTFE （polytetrafluorethylene） vapour is established based on the conservation equations. The interruption of auto-expansion circuit breaker is simulated numerically by finite element method and the influence of PTFE vapour on the arc is analysed with this model. The results reveal that the flow field inside the arc chamber is determined by the arc current, the arcing time, the nozzle arc and the clogging of its thermal boundary. The establishment of quenching pressure relies on both SF6 gas and PTFE vapour that absorbed arc energy in the nozzle. The PTFE vapour leads to an increase in the pressure of nozzle arc obviously, and a decrease in the temperature of arc. But it enhances the temperature of arc at zero current and slows down the decreasing rate of arc temperature as the current decreases.

Simulation of Arc Rotation and Its Effects on Pressure of Expansion Volume in an Auto-Expansion SF_6 Circuit Breaker

A 3D Magnetohydrodynamics （MHD） arc model in conjunction with an arc move- ment model is applied to simulate the arc rotation as well as to solve its effect on the pressure in an auto-expansion circuit breaker. The rotation of the arc driven by an external electromagnetic force is simulated in the case with 200 kA of the short circuit current and 16 ms of arc duration. The arc rotating process and the speed of arc rotation have been obtained in the simulation. A comparison of the pressure in the expansion volume with and without an external magnetic field has been carried out based on the calculation results of two cases. The results of the simulation reveal that the arc rotation, which causes more energy exchange between the arc and its sur- rounding gas, can evidently bring about the pressurization in the expansion volume, which would contribute to more effective arc quenching at current zero and further reducing operation power.

Simulation of the Process of Arc Energy-Effect in High Voltage Auto-Expansion SF_6 Circuit Breaker

A new magnetic hydro-dynamics （MHD） model of arc in H.V. auto-expansion SF6 circuit breaker that takes into consideration nozzle ablation due to both radiation and thermal conduction is presented in this paper. The effect of PTFE （polytetrafluorethylene） vapor is considered in the mass, momentum and energy conservation equations of the constructed model. Then, the gas flow fields with and without conduction considered are simulated. By comparing the aforementioned two results, it is indicated that the arc＇s maximal temperature with conduction considered is 90 percent of that without considering conduction.

Coupling model of AC filter branch in SF6 circuit breaker during the break process

In this paper, a coupling model of the AC filter branch circuit with the arc plasma in the circuit breaker was built to investigate the arcing process considering the harmonic current. The comparisons among the current at power frequency(50 Hz), power frequency combining the 11 th harmonic and power frequency combining the 24 th harmonic show that the high-order harmonic current would lead to higher decreasing rate of current before current-zero period. In addition, the influence of arc on the amplitude of high-order harmonic current is not negligible. Thus, the coupling of arc with AC filter branch circuit is quite necessary in the numerical modeling of the circuit breaker in the AC filter branch at the high voltage direct current converter station.

基于QPSO-SVR算法的SF_(6)断路器触头烧蚀状态评估

高压SF6断路器弧触头的接触电阻和质量损失预测在断路器状态评估中起着重要作用。该文提出了一种基于量子粒子群优化和支持向量回归(quantum particle swarms optimization and support vector regression,QPSO-SVR)的方法,能够有效预测断路器弧触头在不同电弧电流条件下的接触电阻增量和质量损失,并结合实验数据获得了SVR算法的最佳训练参数。将该文方法与其他预测方法进行比较,QPSO-SVR方法对不同电弧电流条件下的实验数据表现出良好的预测能力。其中,对于接触电阻增量的预测相对误差为3.023%,而对于质量损失的预测相对误差为4.61%,均表现出较好的鲁棒性。最后将QPSO-SVR预测得到的质量损失和接触电阻增量以及监测到的累积电弧能量进行模糊逻辑推理,构建了基于QPSO-SVR算法的触头烧蚀状态评估系统,将触头烧蚀状态分为O级烧蚀、Ⅰ级烧蚀、Ⅱ级烧蚀、Ⅲ级烧蚀4等级,可为高压SF6断路器检修提供参考。

Calculation of Steady SF_6 Gas Flow through a 420 kV Circuit Breaker Nozzle and Electric Field Distribution

Special interest in current interruptions is dedicated to the processes close to the current zero instant, the so-called interaction region, which determines the circuit breakers＇ performance. The quantities of interest in this region are the distribution of temperature, density and pressure, velocity and gas mass flow along the electric arc axis, as well as the distribution of electric stress between contacts Calculation of steady SF_6 gas flow through the nozzle of a 420 kV circuit breaker at the current zero instant, for different arcing durations, was carried out using a commercial CFD （computational fluid dynamics） simulation tool. The calculation results were used to get insight into improvement possibilities of the SF_6 gas flow model used in the software for computer simulation of HV （high-voltage） circuit breakers. Electric field calculation results were performed for the same 420 kV circuit breaker, in order to estimate the breakdown voltage at the current zero instant.

基于思维进化和L-M法优化BP神经网络的SF_(6)断路器触头电寿命评估

文中分析35 kV SF_(6)断路器一相触头的动态电阻曲线的特点,提取出主触头接触行程、主触头电阻平均值、弧触头接触行程、弧触头电阻平均值和主触头分离时刻动态电阻极大值5个特征参数,分析得到随着烧蚀程度加深,主触头接触行程和弧触头接触行程减小,主触头电阻平均值、弧触头电阻平均值和主触头分离时刻动态电阻极大值增大。提出电寿命指示参数描述触头状态,采用数值表示法,1表示电寿命完好,0表示电寿命完结。以5个特征参数为输入,电寿命指示参数为输出,基于BP神经网络建立电寿命评估模型。使用思维进化算法优化BP神经网络的初始权值和阈值,使用L-M算法优化BP网络学习过程中的权值调整量,优化后测试集电寿命指示参数的预测误差为0.0183,相比原始BP网络下降61.31%。最后基于电寿命指示参数提出了触头电寿命的评估分级方法,并给出了对应的检修策略。

基于概率地震需求分析的750 kV-SF_(6)罐式断路器耦联体系地震易损性模型

变电站作为电力系统的枢纽,其抗震性能评估尤为重要,其中罐式断路器耦联体系是变电站中的重要设备之一。为研究750 kV-SF_(6)罐式断路器耦联体系的抗震性能,采用增量动力分析(IDA)以及概率地震需求分析(PSDM)相结合的方法评估了其地震易损性。首先分析了750 kV-SF_(6)罐式断路器耦联体系的结构特性和震损特征,构建了有限元模型。通过增量动力分析(IDA),以地面峰值加速度(PGA)为地震动输入参数,得到关键易损部位的地震响应。在此基础上,通过概率地震需求模型(PSDM)生成了每个易损部位在不同震损状态下的地震易损性曲线。最后,基于可靠度理论计算得到了750 kV-SF_(6)罐式断路器耦联体系的地震易损性模型。结果表明,可以确定该结构在不同PGA下发生完全、严重、中度和轻微损坏的概率,反映了结构的抗震性能水平,例如当PGA达到0.6 g时,750 kV-SF_(6)罐式断路器耦联体系4种破坏状态的概率分别分0%,1%~5%,88%~93%和100%。

基于AFSA优化ELM的SF_(6)断路器触头烧蚀状态评估

为评估SF_(6)断路器触头的烧蚀状态,对断路器进行模拟烧蚀试验,并采用3种不同测试电流分别测量动态电阻行程。结果表明:增大测试电流可以减少动态电阻曲线的波动;除电流烧蚀作用外,操动机构松动会造成触头分合闸不到位,导致动态电阻曲线中主触头行程不断减小。将触头烧蚀状态按照烧蚀次数划分为4个等级;从动态电阻行程曲线中提取5个状态参数作为输入参数,基于极限学习机建立触头烧蚀状态的评估模型,并使用人工鱼群算法对模型进行优化;建立未优化的极限学习机模型进行对比。结果表明:利用优化后的模型能够准确分类测试集样本的烧蚀等级,准确率为100%;人工鱼群算法可以提高模型的评估准确率,使模型具有更好的稳定性。

一起极限偏差累积引起的高压SF_(6)断路器绝缘故障分析

近年来,随着我国电网网架的不断发展完善,采用弹簧机构的高压六氟化硫断路器在电网运行的比例逐年增加。高压SF_(6)断路器对电网的安全稳定运行具有重要意义,为提高断路器的运行可靠性,本文结合一起110kV高压SF_(6)断路器因极限偏差累积引起的绝缘故障,通过断路器返厂解体分析故障的根本原因,并提出解决和防范措施。

基于SF_(6)气体的高压断路器运行状态在线监测系统设计

为实现高压断路器的在线监测和故障诊断功能,提高电力系统的稳定性和安全性,设计了基于SF_(6)气体的高压断路器运行状态在线监测系统.提出了基于Polanyi吸附势的SF_(6)气体状态监测方法,并提出了SF_(6)气体高压断路器机械特性的工作状态监测方法.设计了在线监测系统的硬件结构和软件设计流程,同时实现了SF_(6)气体状态监测和机械特性状态监测的系统功能.在某500kV变电站的500kV SF_(6)高压断路器上验证了SF_(6)高压断路器运行状态在线监测系统的可靠性和准确性.该研究实现了高压断路器运行状态的在线监测,提高了设备保养周期和利用效率,符合现代电力系统智能化、自动化和信息化的需求.