基于数字化变电站数据处理算法的单相接地故障架空线路故障定位综合诊断方法的研究

IF 0.6 Q4 ENGINEERING, GEOLOGICAL
V. Sushkov, Ilya S. Sukhachev, Sergey V. Sidorov
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引用次数: 0

摘要

引用链接:Sushkov v.v., Sukhachev i.s., Sidorov S.V.基于数字变电站数据处理算法的单相接地故障诊断架空线路故障定位综合方法的发展。托木斯克理工大学公报。岩土工程Аssets, 2023,第334卷,第2期。7,рр。66 - 77。在Rus.Relevance。出线输电线路电气综合体的紧急情况与线路隔离的损坏以及由此产生的瞬变有关,其特征是电流和电压中存在更高的谐波分量,从而降低了石油和天然气公司电气设备的可靠性和能效。降低电机的机械特性和效率,加速其隔离老化,破坏控制系统和应急自动装置、故障诊断系统的运行。油气公司出线电力综合体出现高级别紧急情况、中断和紧急抢修的原因之一是相地故障的出现。影响相地故障定位方法可靠性的变化因素有很多:输电线路运行方式参数、线路结构和电气参数、故障类型、暂态电阻值、接地电阻值等。在传输线故障定位算法中加入上述多个因素的平均值,使其不受土壤和空气湿度、温度等因素的影响,导致故障定位方法的误差高达30%。因此,基于数字化变电站数据处理算法,考虑塔参数和自然气候因素,研究一种相地故障中性点隔离架空线路故障定位方法具有重要意义。目的:提高电网的可靠性,并通过将数字故障定位系统应用于输出输电线路电气综合体,为消费者提供所需标准的电力。方法:在镜像法的基础上,考虑输电线路的设计特点和自然气候因素,对输电线路进行数学分析;考虑导线自身和相互参数项的输电线路稳态和暂态运行模式的数学分析传输线电流和电压傅立叶分析;秋明地区能源公司电网相地故障定位方法的验证。结果。作者提出了中性点隔离电网中输电线路的相地故障定位方法,该方法的不同之处在于:首先,通过变电站输入相电压负序电压值的对应关系来识别故障的架空馈线支路;然后根据线路的谐振频率,结合线路的设计特点和自然、气候因素,沿支线确定到单相接地故障点的距离。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DEVELOPMENT OF A COMPREHENSIVE APPROACH TO DIAGNOSING THE OVERHEAD LINE FAULTS LOCATION IN SINGLE-PHASE GROUND FAULTS BASED ON A DIGITAL SUBSTATION DATA PROCESSING ALGORITHM
Link for citation: Sushkov V.V., Sukhachev I.S., Sidorov S.V. Development of a comprehensive approach to diagnosing the overhead line faults location in single-phase ground faults based on a digital substation data processing algorithm. Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering, 2023, vol. 334, no. 7, рр. 66-77. In Rus. Relevance. Emergency of electric complex of outgoing transmission lines is associated with the occurrence of damage to the line isolation and the resulting transients, marked by the presence of higher harmonic components of currents and voltage, which reduce the reliability and energy efficiency of electrical equipment of oil and gas companies: degrade the mechanical characteristics and efficiency of electric motors, accelerate aging of their isolation, disrupt the operation of control systems and emergency automatics, fault diagnostics systems. One of the reasons of high-level emergency situations, outages and emergency repairs in electric complexes of outgoing transmission lines of oil and gas companies is appearance of phase-to-ground faults. A large number of changing factors are known to influence the reliability of phase-to-ground fault location methods: parameters of transmission line operating mode, its structural and electrical parameters, fault type, transient resistance value, ground resistance and others. Inclusion in the transmission line fault location algorithms of averaged values of a number of the factors listed above independent of changes of humidity of soil and air, its temperature and other factors causes an error of methods of fault location up to 30 %. Accordingly, the research to develop a fault location method for overhead transmission lines with isolated neutral points during phase-to-ground faults based on a digital substation data processing algorithm, accounting for tower parameters and natural-climatic factors, is relevant. Objective: improving the reliability of power grids and providing consumers with power of the required standard by applying a digital fault location system to the outgoing transmission lines electrical complex. Methods: mathematical analysis of a power transmission line, taking into account its design features and natural-climatic factors on the basis of the method of mirror images; mathematical analysis of steady-state and transient modes of transmission line operation considering self and mutual parameters terms of wires; transmission line currents and voltages Fourier analysis; validation of developed method of phase-to-ground fault location in power grid of Tyumen region energy company. Results. The authors have developed the phase-to-ground faults location method for transmission lines in power grids with isolated neutral points, which differs in the following –  first the faulty overhead line feeder branch is identified by correspondences between the negative sequence voltage values of the phase voltages at the transformer substation inputs, and then the distance to the location of the single-phase ground fault is determined along the branch line based on the resonant frequencies of the line taking into account its design features and natural and climatic factors.
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来源期刊
CiteScore
1.40
自引率
50.00%
发文量
210
审稿时长
5 weeks
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