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Journal article
An effective fault management scheme and comprehensive double line‐frequency ripple propagation analysis for MVDC networks
IET generation, transmission & distribution, v 15(22), pp 3151-3163
Nov 2021
Featured in Collection : UN Sustainable Development Goals @ Drexel
Abstract
This paper proposes an effective fault management scheme for medium‐voltage direct current (MVDC) networks, which includes a virtual‐impedance‐based fault current limiter (VI‐FCL) on the DC side and a positive‐negative‐sequence (PNS) control scheme on the AC side. Depending on the fault current value, different protection strategies are adopted, which include either isolating the fault by opening circuit breakers or riding through the fault with the proposed VI‐FCL. It is known that unbalanced grid voltage can be found in conventional AC distribution feeders due to unbalanced loading conditions among three phases. The unbalanced grid voltage could induce double line‐frequency (2ω) ripples on both DC voltage and current, which could thereby trigger protection malfunction in the DC sub‐sections. Therefore, the PNS control scheme is used to eliminate the 2ω ripples of both DC voltages and currents caused by unbalanced AC voltages. Furthermore, a detailed 2ω mathematical model of the MVDC network under unbalanced AC voltage condition is derived to investigate how the 2ω ripple propagates across the network. A voltage source converter based multi‐terminal MVDC network is built to test DC faults with different fault currents, unbalanced AC voltages, and different control schemes. The test results verify both the proposed fault management scheme and the 2ω ripple propagation analysis.
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Details
- Title
- An effective fault management scheme and comprehensive double line‐frequency ripple propagation analysis for MVDC networks
- Creators
- Dongsen Sun - Temple UniversityXiaonan Lu - Temple UniversityLiang Du - Temple UniversityFei Lu - Drexel University
- Publication Details
- IET generation, transmission & distribution, v 15(22), pp 3151-3163
- Number of pages
- 13
- Grant note
- U.S. Department of Energy, ARPA‐E (DE‐AR0001114)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Electrical and Computer Engineering
- Web of Science ID
- WOS:000674692900001
- Scopus ID
- 2-s2.0-85110058498
- Other Identifier
- 991019168161004721
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- Collaboration types
- Domestic collaboration
- Web of Science research areas
- Engineering, Electrical & Electronic