Study on Earth Surface Potential and DC Current Distribution around DC Grounding Electrode

DC magnetic biasing problem,caused by the DC grounding electrode, threatened the safe operation of AC power grid. In this paper, the characteristics of the soil stratification near DC grounding electrode was researched. The AC-DC interconnected large-scale system model under the monopole operation mode was established. The earth surface potential and DC current distribution in various stations under the different surface thickness was calculated. Some useful conclusions are drawn from the analyzed results.

Effects of Transformer DC Bias and the Relationship Between UHVDC Grounding Current and Grounding Resistances

Recently years,UHVDC transmission system is paid more attention to in the field of China's power system.It takes key part in the China electrical power development stratagem.But,many problems are caused by UHVDC system,such as DC bias,corrosion of metal underground and so on.DC bias is harm to the transformers nearby UHVDC grounding polar.In this paper,the influences of DC grounding current on transformer are introduced and some suggestions of DC bias solution were provided.And,the relationship between UHVDC Grounding Current and grounding Resistance of Substation was analyzed.Firstly,two-part network circuit was used to equivalent the grounding circuit.Then,an analysis of rules was done between DC bias current and grounding resistance.Finally,the conclusion is given that DC bias current rises fast as DC grounding resistance or AC grounding resistance rises.It drops when resistance of AC transmission line or interaction resistance between DC grounding system and AC grounding system rises.Decreasing AC grounding resistance and DC grounding resistance is important to restrain DC bias current.Increasing resistance of AC transmission line such as adding resistance into transformer neutral-point grounding is a useful way to limit DC bias current.

Dynamic physical characteristics of DC arc on arcing horn for HVDC grounding electrode line

The dynamic physical characteristics of a DC arc on an arcing horn for a high voltage direct current(HVDC)grounding electrode line are significantly different from those of the switching device arc,secondary arc,AC fault arc and pantograph-catenary arc.In this work,an experimental platform for the DC arc on the arcing horn was built,and mechanisms of the arc column short circuit and arc root movement were studied.This work further analyzes the characteristics and mechanisms of the arc motion when wind speed and direction,magnetic field and the expansion angle of the electrode are varied.Arc root movement is more likely to occur at the upper electrode.There is a competitive relationship between arc expansion and the transferring effect.The effect of wind on the arc column is greater than the effect on the arc root.The magnetic field has a significant driving effect on both the arc column and the arc root.The research results provide a comprehensive experimental basis for forther probing the method of DC arc suppression,and the improvement of the arcing horn.

Research on Common Grounding Electrode Technique in HVDC

This paper discusses the characteristics of DC transmission common system ground electrode type and shared ground electrode, established the mathematical model of two circuit DC systems share ground electrode, analyze effects of the shared loop ground DC transmission system electrode on the operation of HVDC system size under different operation modes, and compare with the independent ground electrode, ground electrode impact on environment under different operation mode, and the paper finally puts forward some solving measures for the influence of the shared ground electrode on the environment and public ground electrode effects on DC system operation problems.

Simulation on DC Current Distribution in AC Power Grid under HVDC Ground-Return-Mode

This paper focus on the Modeling and Calculation of DC current distribution in AC power grid induced under HVDC Ground-Return-Mode. Applying complex image method and boundary element method, a new field-circuit coupling model was set up. Based on the calculation result with complex image method, this paper derived the modification factor for induced earth potential from practical measurement, which increased the accuracy of calculation. The modification method is helpful for evaluation on the effect of means used for blocking the dc-bias current in transformer neutral and also useful for the forecast of the DC current distribution when the power grid is in different line connection mode. The DC distribution character in Guangdong power grid is shown and suggestion is proposed that the mitigation of dc-bias should start from those substations whose earth-potential is highest.

基于最优特征训练支持向量机的MMC-HVDC输电线路故障检测方法

准确辨识MMC-HVDC系统的线路故障类型对于快速恢复故障线路正常运行有着重要的意义,但高阻接地故障一直是识别的难点。为此,提出了一种基于支持向量机的故障类型检测方法。该方法利用经验模态分解提取故障电压信号中的若干个高频模态量,通过粒子群优化算法寻找各个模态量的最优权值后重构波形信号作为特征样本训练分类模型。仿真结果验证,利用优化样本训练出的分类模型可以在低采样频率和较少故障波形采样点的情况下完成对不同类型故障的准确识别。

中性点不接地柔直配电网的单极接地故障暂态过程分析及保护新方案

针对中性点不接地的柔直配电网分析了直流馈线发生单极接地故障的暂态过程,提出了单极接地保护新方案,能有效解决现有直流线路保护不能反应中性点不接地柔直配电网的单极接地故障问题。在单极接地故障的分析中,将故障发展过程分为子模块电容放电阶段和交流重新馈入充电阶段。基于叠加原理分析了子模块电容放电阶段的电流流通路径、直流馈线暂态零模电流的电流成分和变化规律,得到故障馈线暂态零模电流主要呈现衰减非周期分量特征、非故障馈线暂态零模电流主要呈现振荡衰减分量特征的结论;利用牛顿迭代法推导了交流重新馈入充电的时刻,分析了影响因素并计算了过渡过程持续的最短时间。基于子模块电容放电开始时刻至交流重新馈入充电时刻这一段的暂态特征提出单极接地保护方案。该方案利用直流母线出现的零模电压启动保护,利用零模电压极性实现故障选极,利用故障馈线暂态零模电流绝对值的第一个积分时段值大于非故障馈线的值、且呈现衰减非周期分量特征选出故障馈线。搭建仿真模型,对故障分析结果和保护方案的有效性进行了验证。

UHVDC圆环接地极接地性能分析

为研究UHVDC圆环接地极接地性能,用三维有限元法计算了考虑钢体自身电阻率时其性能参数,在相同电极长度下计算比较了单圆环、双圆环和三圆环3种不同电极型式的接地特性,结果表明引流电缆注入点处的电极电位和温升略高于电极其它部位,且单圆环电极的最高电位升、接地电阻和最高温升最小,双圆环次之,三圆环最大;还分析了双层土壤上下层电阻率、电极埋深等参数对接地性能的影响。结果表明,电极埋深越大,最高电位升和接地电阻越小,但随着埋深的增加,温度却难以扩散,导致电极最高温升变大。此外土壤电阻率是影响接地性能的重要因素,随着土壤电阻率的增大,最高电位升和接地电阻等指标均有不同程度的上升,电极埋设层土壤电阻率对接地性能的影响较下层土壤电阻率的影响更大。

适用于架空线路输电的新型双极MMC-HVDC拓扑

在充分借鉴传统直流输电工程结线方式的基础上,提出了一种适用于架空线路输电的新型双极模块化多电平换流器型高压直流输电(MMC-HVDC)系统拓扑。该拓扑中换流器采用基于箝位双子模块的改进型模块化多电平换流器(MMC),接地极线从上下2个换流器串联构成的双极结构中间引出。重点分析了换流器在故障条件下的等值电路和直流闭锁机理,并设计了直流侧故障后的详细控制策略,并用PSCAD/EMTDC仿真软件验证了该系统拓扑的有效性和可行性。结果表明:双极拓扑具有运行方式灵活、系统可靠性高等优点;由于二极管反向阻断和箝位作用,换流器在封锁所有绝缘栅双极型晶体管(IGBT)触发脉冲后数ms内就能实现直流闭锁,因此无需交流断路器动作,仅依靠换流器自身动作就能抑制短路电流;所设计的控制时序可有效处理直流侧的故障,并在暂时性故障下帮助系统迅速重启动,减少系统停运时间。

DCS网络噪声干扰原因分析及对策

DCS系统的抗干扰能力是攸关整个控制系统安全运行的关键因素之一,而接地系统是DCS安全和应用过程中的重要环节。针对某电厂DCS存在的网络噪声干扰问题,从系统接地类型、方式及接地装置等方面,对该电厂DCS接地系统进行了全面的研究和测试。分析了该电厂DCS系统内、外部干扰产生的原因,并提出了相应的解决和预防措施,由此确保了DCS系统的长期稳定运行。

HVDC地中直流对交流系统影响的防范措施

针对直流输电系统处于单极大地回路运行方式时对交流电网运行带来的噪声、谐波、振动等不利影响,比较全面地对各种抑制地中直流影响的措施进行了对比分析。基于地中电流的成因与流散规律分析,提出了采用直流接地极与交流变电站选址优化、无接地极运行或多极共址运行方式、合理结构型式变压器的选择等主动防范措施减小地中直流的影响。结合作者的研究成果,就国内外目前抑制变压器中性点直流采取的注入反向电流、中性点串入电容、中性点串入电阻等措施进行了对比分析。通过分析串电阻措施的关键问题,认为该方案结构简洁,长期运行可靠性高,不会产生谐振,成本低廉,建议在现场使用。该研究成果为解决交直流电网并列运行安全稳定运行提供了有益的建议。

两电平VSC-HVDC系统直流侧接地方式选择

基于开关函数法对两电平电压源换流器型高压直流(VSC-HVDC)系统进行了建模,分析了正弦脉宽调制(SPWM)时VSC的谐波特性,指出零序的载波频率次谐波电压、电流是VSC交流侧的主要谐波分量,推导了该零序谐波电流经开关函数中的基波分量作用后将在直流侧形成载波频率次不平衡谐波电流。发现了直流侧不平衡谐波电流流通路径与直流侧的接地方式密切相关,只有VSC-HVDC系统两端直流侧都接地,直流侧不平衡谐波电流才能通过本端直流侧接地点和交流侧高通滤波器接地点流通而被限制在本地,否则该高频谐波电流将在输电线路上流通,从而引发一系列危害。在PSCAD/EMTDC下搭建VSC-HVDC系统进行了仿真分析,验证了以上结果,提出了两电平VSC-HVDC系统需要采用两端直流侧都接地的拓扑结构。

MOSFET单粒子烧毁引起的DC/DC电源变换器功能失效试验研究

文章利用回旋加速器产生的Kr离子,对双路输出的DC/DC电源变换器开展了单粒子效应试验研究,分析了在空载和加载两种偏置条件下的试验结果,指出内部功率MOSFETs器件的漏-源端电压在单粒子辐照条件下超出了器件的击穿电压是导致DC/DC电源变换器单粒子功能失效的直接原因,最后给出了航天器电源系统抗辐射设计和功率MOSFETs器件选用建议。

基于特征谐波阻抗比值的HVDC直流滤波器高压电容器接地故障保护方案

为提高高压直流输电系统中直流滤波器高压电容器接地故障保护的灵敏度和可靠性,提出一种基于特征谐波阻抗识比值的高压电容器接地故障保护方案。高压电容器发生接地故障后,直流滤波器结构变化,调谐点和谐振点发生偏移,以此为基础,对高压电容器不同位置发生接地故障的滤波器电路拓扑进行等效,分析最小调谐角频率和并联谐振角频率对应的特征谐波阻抗比值特征发现,故障前后滤波器特征谐波阻抗比值差异巨大,以此构成高压电容器接地故障识别判据。利用PSCAD/EMTDC仿真平台搭建仿真模型,对所提保护方案的可靠性进行验证,仿真结果表明该保护方案可准确识别高压电容器的接地故障,且具有一定的耐过渡电阻的能力,抗噪能力强,有一定的工程应用前景。

DCS系统接地的探讨

DCS系统的可靠接地是保证化工厂DCS安全和可靠运行的首要条件。根据一些化工厂的系统设计和现场经验,对DCS系统的接地进行了探讨,提出了直流工作地悬空的处理方法。

核电站安全级DCS系统接地设计研究

DCS系统的可靠接地是保证DCS安全、可靠运行的重要条件。为了保证DCS系统的监测控制精度和可靠运行,在DCS系统接地设计时,必须严格按照接地相关标准的要求进行设计。本文依据相关标准要求,给出了核电站安全级DCS系统接地设计的原则和方法,并结合辽宁红沿河核电站安全级DCS接地实例作了相关分析。

火力发电厂DCS接地系统的设计

DCS接地系统是保证电厂DCS安全可靠运行不可缺少的条件,而且也是避免人身伤害或设备损坏的重要手段。本文重点论述了不同DCS接地系统的设计,提出了火电机组的DCS系统的接地设计方案及需注意问题。

基于随机森林的DC 600 V供电系统接地故障诊断方法研究

为解决目前DC 600 V供电系统接地故障诊断方法只能诊断出较少的故障模式且通用性较差的问题,文章搭建了DC 600 V供电系统的仿真模型,对供电系统输入端接地、中间直流环节接地、输出端接地等多种故障模式进行了仿真分析,提取了故障波形的关键特征,并采用随机森林分类器方法解决了现有诊断方法通用性较差的问题。验证结果表明,该方法能准确诊断多种接地故障模式,且具有更好的通用性和可维护性。

基于差动电流积分相关性的直流配电网单极接地故障保护方法

针对小电流接地的直流配电网在发生高阻接地故障时故障辨识困难,以及电流差动保护易受分布电容暂态电流干扰的问题,提出一种基于差动电流积分相关性的直流配电网单极接地故障保护方法。研究通过分析直流配电网在发生故障后的故障电流特征,验证了分布电容暂态电流为故障电流的主要成分。利用发生区内外故障时差动电流的极性差异并引入Pearson相关性系数,根据正负差动电流积分与其积分绝对值的相关性构造故障线路识别判据。仿真分析表明,所提方法可快速识别故障线路,具有一定的耐受噪声和同步误差的能力,且在高阻接地情况下依旧能准确识别故障线路。

燃机MARKV 125 V DC接地故障处理

介绍了镇海联合循环电厂PG9171E型燃气轮机MARKV开关量控制系统采样、监测回路原理,分析了125 V DC接地故障报警产生的各种原因与防范措施,总结了125 V DC接地故障查找经验,为燃机同行快速有效排除125 V DC接地故障提供参考。