Journal
IEEE TRANSACTIONS ON POWER DELIVERY
Volume 32, Issue 1, Pages 381-392Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPWRD.2016.2545923
Keywords
Active distribution networks; fault detection; fault location; phasor measurement units; protection; real-time state estimation; real-time simulation
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Funding
- European Community [318708]
- NanoTera Swiss National Science Foundation
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We intend to prove that phasor-measurement-unit (PMU)-based state estimation processes for active distribution networks exhibit unique time determinism and a refresh rate that makes them suitable to satisfy the time-critical requirements of protections as well as the accuracy requirements dictated by faulted line identification. In this respect, we propose a real-time fault detection and faulted line identification functionality obtained by computing parallel synchrophasor-based state estimators. Each state estimator is characterized by a different and augmented topology in order to include a floating fault bus. The selection of the state estimator providing the correct solution is performed by a metric that computes the sum of the weighted measurement residuals. The proposed process scheme is validated by means of a real-time simulation platform where an existing active distribution network is simulated together with a PMU-based monitoring system. The proposed process is shown to be suitable for active and passive networks, with solid-earthed and unearthed neutral, for low-and high-impedance faults of any kind (symmetric and asymmetric) occurring at different locations.
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