28 Papers
Nan Peng is an academic researcher from China University of Mining and Technology. The author has contributed to research in topics: Computer science & Fault (power engineering). The author has an hindex of 5, co-authored 10 publications.
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Papers
Fault Location Method in Power Network by Applying Accurate Information of Arrival Time Differences of Modal Traveling Waves
TL;DR: This paper presents a novel FL scheme by utilizing the information of the time differences of arrival (TDOAs) of modal traveling waves (MTWs) asynchronously sampled in the network, which demonstrates that the method is not affected by fault impedance, inception angle, location, and noises.
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Edge Computing-Based Fault Location in Distribution Networks by Using Asynchronous Transient Amplitudes at Limited Nodes
TL;DR: A fault location scheme is proposed for distribution grids with both homogenous and hybrid feeders using the edge computing and the results demonstrate the effectiveness of the scheme.
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Single-Phase-to-Earth Faulty Feeder Detection in Power Distribution Network Based on Amplitude Ratio of Zero-Mode Transients
TL;DR: The calculation results demonstrate that the proposed faulty feeder detection criterion has high reliability and is not affected by neutral grounding mode, fault initial condition, high impedance fault (HIF) and noise.
Asynchronous Fault Location in Transmission Lines Considering Accurate Variation of the Ground-Mode Traveling Wave Velocity
TL;DR: In this paper, a grounding fault location method in transmission lines based on time difference of arrival (TDOA) of ground-mode and aerial-mode traveling waves (TWs) is proposed.
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Fault location on double–circuit transmission lines by phase correction of fault recorder signals without accurate time synchronization
TL;DR: A novel fault location (FL) scheme for double circuit lines is proposed by phase correction of the phasors recorded by the FRs at the remote terminal and it is demonstrated that the proposed scheme is barely affected by fault type, resistance, inception angle, distance, noise, asynchronous phase and circuit breaker operation.
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