A new scheme for fault location of three‐terminal parallel transmission lines without transposer

Chen, Gonggui; Cai, Daiying; Long, Hongyu; Long, Yi; Zeng, Xiangxue; Zhou, Ping; Kang, Peng

doi:10.1049/gtd2.12191

Cited by 7 publications

(1 citation statement)

References 20 publications

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“…However, this shift from traditional radial systems to meshed networks presents novel challenges for fault location [1]. The single-phase-to-ground location in neutral isolated distribution networks has been a topic of research for a long time and there are numerous available methods [2,3], which can be categorized into four types as follows: steady-state signal-based (SSBM) [4,5], transient signal-based (TSBM) [6,7], signal or disturbance injectionbased (SIBM) [8], and artificial intelligence-based methods (AIBM) [9].…”

Section: Introductionmentioning

confidence: 99%

A PLC communication characteristics‐based fault location method in medium voltage meshed distribution networks

Bin,

Min‐gang,

Junliang

et al. 2024

IET Generation Trans & Dist

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A power line carrier (PLC) communication characteristics‐based method is proposed for single‐phase‐to‐ground fault location in neutral isolated medium voltage meshed distribution networks in this paper. The carrier signals with a time‐varying frequency and constant amplitude are processed by a set of PLC transmitters and receivers, whose placement is optimized by regarding the power network as an undirected graph. Two signal encoding and decoding algorithms for the PLC terminals are proposed to avoid using expensive timing systems between the terminals. The fault location technique is implemented by comparing the cosine similarity of amplitude attenuation and phase offset between the fault and a feature library. The node corresponding to the maximum cosine similarity of the characteristics between the present fault and the library is selected as the location of the current fault. Only one set of low‐cost PLC communication terminals and the widely available power lines are needed in the fault location system, making this approach highly practical. Numerical simulations using MATLAB/Simulink have been performed to verify the technique's feasibility. The results show that the method can accurately locate faults in neutral isolated medium voltage meshed distribution networks. Besides, the presented approach achieves a high level of accuracy in estimating transition resistance values.

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Section: Introductionmentioning

confidence: 99%

A PLC communication characteristics‐based fault location method in medium voltage meshed distribution networks

Bin,

Min‐gang,

Junliang

et al. 2024

IET Generation Trans & Dist

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Cross‐country high impedance fault diagnosis scheme for unbalanced distribution network employing detrended cross‐correlation

Sinha

Paul²,

Chatterjee³

et al. 2023

IET Generation Trans & Dist

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Distribution networks frequently experience cross‐country failures (CCFs).This study presents research that demonstrates how Cross‐Correlation may be used to extract distinctive features from faulty current signals, hence providing a threshold‐based technique for fault identification. The most challenging aspect of dealing with HIF syndrome‐related CCFs is recognizing and categorizing them. In this research, the complex, aperiodic, asymmetric, and nonlinear features of the signals generated by CCF with HIF syndrome were recovered using the Cross Correlation method. The low frequencies are filtered out using a high pass filter, leaving only the positive peak and two negative peaks in the vicinity as unique features of the correlogram. In this work, the proposed approach is put to the test on the modified imbalanced IEEE 240 Bus system. The suggested method is assessed through the lens of several different case studies, such as the switching of a capacitor bank, a reactor string, a load, a feeder, the effects of a power swing, nonlinear loads, lightly laden conditions, and measurement noise. The normal and faulty signals can be distinguished by their normalized QRS levels. By selecting the most appropriate sensors using the Jellyfish optimization method, we were also able to ascertain which bus housed CCHIF.

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A Study of Fault Localization Techniques for Transmission Lines Based on the Modified Waveform Method

Niu,

Liu,

Huang

2024

2024 9th Asia Conference on Power and Electrical Engineering (ACPEE)

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A new scheme for fault location of three‐terminal parallel transmission lines without transposer

Cited by 7 publications

References 20 publications

A PLC communication characteristics‐based fault location method in medium voltage meshed distribution networks

A PLC communication characteristics‐based fault location method in medium voltage meshed distribution networks

Cross‐country high impedance fault diagnosis scheme for unbalanced distribution network employing detrended cross‐correlation

A Study of Fault Localization Techniques for Transmission Lines Based on the Modified Waveform Method

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