Increase of Accuracy of the Fault Location Methods for Overhead Electrical Power Lines

被引:3
|
作者
Lebedev, Vladimir [1 ]
Filatova, Galina [1 ]
Timofeev, Alexander [1 ]
机构
[1] Ivanovo State Power Univ, Dept Elect Power Syst Automat Control, Ivanovo, Russia
来源
ADVANCES IN MATERIALS SCIENCE AND ENGINEERING | 2018年 / 2018卷
关键词
D O I
10.1155/2018/3098107
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The high-voltage power lines are quite often damaged parts of the energy system. Line outage is always accompanied by undersupply of energy and decrease of reliability, cost, and quality of electric supply. That is why one of the important tasks of line maintenance is quick looking for location of the damage and organization of the rehabilitation. The main part of this work includes development and research of the methods and algorithms for fault location based on one-sided measurement and the ways to increase their accuracy. This type of measurement uses signals from digital current and voltage transformers as input. The influence of the basic distorting factors on the accuracy of the fault location determination methods is also considered.
引用
收藏
页数:6
相关论文
共 50 条
  • [21] Novel Fault-Location Method for Overhead Electrical Distribution Systems
    Alwash, Shamam Fadhil
    Ramachandaramurthy, Vigna Kumaran
    IEEJ TRANSACTIONS ON ELECTRICAL AND ELECTRONIC ENGINEERING, 2013, 8 : S13 - S19
  • [22] Fault Location for Power Lines With Multiple Sections
    Gong, Yanfeng
    Mynam, Mangapathirao
    Guzman, Armando
    2012 IEEE PES TRANSMISSION AND DISTRIBUTION CONFERENCE AND EXPOSITION (T&D), 2012,
  • [23] Adapting and Improving the Accuracy of Fault Location Algorithms on Power Transmission Lines on the basis of Statistical Simulation
    Kulikov, A. L.
    Obalin, M. D.
    Vukolov, V. U.
    Bezdushniy, D., I
    2016 2ND INTERNATIONAL CONFERENCE ON INDUSTRIAL ENGINEERING, APPLICATIONS AND MANUFACTURING (ICIEAM), 2016,
  • [24] Modelling of Wave Processes on Power Transmission Lines to Improve the Accuracy of Fault Location1
    Kulikov A.L.
    Lachugin V.F.
    Anan’ev V.V.
    Vukolov V.Y.
    Platonov P.S.
    Power Technology and Engineering, 2016, 49 (5) : 378 - 385
  • [25] Single-Ended Fault Location Determination on High-Voltage Overhead Power Lines with the Account for the Reactive Component of Fault Impedance
    Kulikov, A.L.
    Kolobanov, P.A.
    Podshivalin, A.N.
    Zhafyarov, A.R.
    Power Technology and Engineering, 2024, 58 (02) : 367 - 376
  • [26] Advanced methods for computation of electrical parameters for overhead transmission lines
    Cenky, Matej
    Bendik, Jozef
    Eleschova, Zaneta
    JOURNAL OF ELECTRICAL ENGINEERING-ELEKTROTECHNICKY CASOPIS, 2017, 68 (02): : 143 - 147
  • [27] LINE FAULT LOCATION FEATURES IN THE HVDC LINES CONTAINING CABLE AND OVERHEAD SEGMENTS
    Ivanova, Elena A.
    Lozinova, Nataliya G.
    BULLETIN OF THE TOMSK POLYTECHNIC UNIVERSITY-GEO ASSETS ENGINEERING, 2016, 327 (08): : 17 - 27
  • [28] Field Tests of a Traveling Wave Fault Location Service for Overhead Transmission Lines
    Lachugin V.F.
    Platonov P.S.
    Alekseev V.G.
    Vazyulin M.V.
    Mitrofanov N.N.
    Popov S.G.
    Izmukov G.N.
    Podshivalin A.N.
    Artyunov S.A.
    Klyushkin N.G.
    Shemetov A.S.
    Power Technology and Engineering, 2022, 55 (05): : 783 - 789
  • [29] Generalized Fault-Location Methods for Overhead Electric Distribution Systems
    Liao, Yuan
    IEEE TRANSACTIONS ON POWER DELIVERY, 2011, 26 (01) : 53 - 64
  • [30] Fast learning rbf neural networks based fault location on electrical power distribution lines
    Yellagoud, Surender Kumar
    Raotalluri, Purnachandra
    Engineering Intelligent Systems, 2017, 25 (02): : 53 - 60
12345