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Electrical Engineering
Published in: Electrical Engineering 1/2016

09-12-2015 | Original Paper

Time-based fault location method for LV distribution systems

Authors: Hassan Nouri, Mohsen Mohammadi Alamuti, Mohammad Montakhab

Published in: Electrical Engineering | Issue 1/2016

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Abstract

Due to the utilization of fundamental frequency, current impedance-based fault location methods are able to locate only permanent and linear faults. The duration of the arc in low and medium voltage systems can be as short as a quarter of a cycle. This period, which is normal for intermittent faults, is insufficient for fundamental frequency-based fault location algorithms. Therefore, available methods are not applicable for intermittent arcing fault location. In this paper, the time-based method previously proposed by the authors has been developed to locate short duration faults in LV distribution systems. The advantage of the proposed method over available methods is its capability for locating faults using fewer samples, which enable the user to locate both arcing faults as well as normal faults in the network. The main characteristics of an arcing fault, i.e., non-linearity and short duration, have been addressed in the proposed algorithms methodology. Various characteristics of a LV distribution system (i.e., heterogeneity, unbalanced load and line, etc.) have been taken into account in the current enhanced algorithm. The validity of the devised algorithm is studied within PSCAD-EMTDC environment and the obtained results show a good accuracy.
previous article Stabilized adaptive controller based on direct IF–THEN knowledge of electronic systems for PWM drivers

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Literature
1.
Nouri H, Alamuti MM (2011) Comprehensive distribution network fault location using the distributed parameter model. IEEE Trans Power Deliv 26:2154–2162CrossRef
2.
Mora-Flòrez J et al (2008) Comparison of impedance based fault location methods for power distribution systems. Electr Power Syst Res 78:657–666CrossRef
3.
Salim RH et al (2009) Extended fault-location formulation for power distribution systems. IEEE Trans Power Deliv 24:508–516CrossRef
4.
Filomena AD et al (2009) Fault location for underground distribution feeders: an extended impedance-based formulation with capacitive current compensation. Int J Electr Power Energy Syst 31:489–496CrossRef
5.
Yang X et al (2008) Fault location for underground power cable using distributed parameter approach. IEEE Trans Power Syst 23:1809–1816CrossRef
6.
Han F et al (2007) Locating phase-to-ground short-circuit faults on radial distribution lines. IEEE Trans Ind Electron 54:1581–1590
7.
Lee SJ et al (2004) An intelligent and efficient fault location and diagnosis scheme for radial distribution systems. IEEE Trans Power Deliv 19:524–532CrossRef
8.
Choi M-S et al (2004) A new fault location algorithm using direct circuit analysis for distribution systems. IEEE Trans Power Deliv 19:35–41CrossRef
9.
Zhu J et al (1997) Automated fault location and diagnosis on electric power distribution feeders. IEEE Trans Power Deliv 12:801–809CrossRef
10.
Aggarwal RK et al (1997) New concept in fault location for overhead distribution systems using superimposed components. IEE Proc Gener Transm Distrib 144:309–316CrossRef
11.
Girgis AA et al (1993) A fault location technique for rural distribution feeders. IEEE Trans Ind Appl 29:1170–1175CrossRef
12.
Srinivasan K, St-Jacques A (1989) A new fault location algorithm for radial transmission lines with loads. IEEE Trans Power Deliv 4:1676–1682CrossRef
13.
Das R et al (2000) A fault locator for radial subtransmission and distribution lines. In: Power Engineering Society Summer Meeting, WA, USA, Seattle, pp 443–448
14.
Liao Y (2011) Generalized fault-location methods for overhead electric distribution systems. IEEE Trans Power Deliv 26:53–64CrossRef
15.
Jamali S, Talavat V (2010) Dynamic fault location method for distribution networks with distributed generation. Electr Eng 92:119–127CrossRef
16.
Pereira RAF et al (2009) Improved fault location on distribution feeders based on matching during-fault voltage sags. IEEE Trans Power Deliv 24:852–862CrossRef
17.
Livie J et al (2007) Experience with online low voltage cable fault location techniques in Scottish Power. In: 19th international conference on electricity distribution CIRED, Vienna, pp 1–4
18.
Livie J et al (2008) The Application of on-line travelling wave fault location techniques in the location of intermittent faults on low voltage underground cables. In: IET 9th international conference on evelopments in power system protection DPSP, Glasgow, UK, pp 714–719
19.
Navaneethan S et al (2001) Automatic fault location for underground low voltage distribution networks. IEEE Trans Power Deliv 16:346–351CrossRef
20.
Siew WH et al (2005) Automatic fault location for underground distribution network. In: 18th international conference and exhibition on electricity distribution CIRED, Turin, pp 1–6
21.
Jung CK et al (2007) Wavelet based noise cancellation technique for fault location on underground power cables. Electr Power Syst Res 77:1349–1362CrossRef
22.
Jung C, Lee J (2008) Fault location algorithm on underground power cable systems using noise cancellation technique. In: IEEE/PES transmission and distribution conference and exposition, pp 1–7
23.
Alamuti MM et al (2010) Single end low voltage arcing fault location using time based formulation. In: The 45th International Universities’ power engineering conference, Wales, Cardiff, pp 1–5
24.
Alamuti MM et al (2011) Intermittent fault location in distribution feeders. IEEE Trans Power Deliv 27(1):96–103
25.
Zhu J et al (1997) Automated fault location and diagnosis on electric power distribution feeders. IEEE Trans Power Deliv 12:801–809CrossRef
26.
Salim RH et al (2008) Hybrid fault diagnosis scheme implementation for power distribution systems automation. IEEE Trans Power Deliv 23:1846–1856CrossRef
27.
Gammon T, Matthews J (1999) The historical evolution of arcing-fault models for low-voltagesystems. In: IEEE industrial and commercial power systems technical conference, Sparks, NV, USA
28.
Gammon T, Matthews J (2008) IEEE 1584-2002 arc modeling debate. IEEE Ind Appl Mag 14:61–69CrossRef
Metadata
Title
Time-based fault location method for LV distribution systems
Authors
Hassan Nouri
Mohsen Mohammadi Alamuti
Mohammad Montakhab
Publication date
09-12-2015
Publisher
Springer Berlin Heidelberg
Published in
Electrical Engineering / Issue 1/2016
Print ISSN: 0948-7921
Electronic ISSN: 1432-0487
DOI
https://doi.org/10.1007/s00202-015-0346-1

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