Protective Coordination of the OCR with the Voltage Component in a Closed-Loop Power Distribution System with the FCL
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ORIGINAL ARTICLE
Protective Coordination of the OCR with the Voltage Component in a Closed‑Loop Power Distribution System with the FCL Seung‑Taek Lim1 · Sung‑Hun Lim2 Received: 11 March 2020 / Revised: 27 July 2020 / Accepted: 11 August 2020 © The Korean Institute of Electrical Engineers 2020
Abstract Recently, the requirement of the electrical energy from the renewable source has been growing in the South Korea since government’s energy plan to generate the electrical power of 20% as renewable source. In addition, these renewable power plants have been constructed on not only the existing power plant’s side but also customer’s side. These changes in power distribution system cause the fault current to increase higher and to reverse the direction of the fault current. Variable countermeasures to reduce the fault current have been studied and the introduction of the superconducting fault current limiter (SFCL) in the power distribution system, one of them, has been actively reported. However, the installation of the SFCL can affect the power system protection because of the fault current’s decrease or increase, which depends on the construction of the power distribution system. Especially, the application of the SFCL in a closed-loop power distribution system can cause the delayed trip operation or the fast trip operation of the over-current relay (OCR), one of the representative protective devices widely used in a power distribution system. This change can influence on the existed protective coordination. In this paper, the OCR with voltage component, one of the methods to suppress its trip operation’s change in a power distribution system with a closed loop construction due to the application of the SFCL, was suggested and the protection coordination between the OCRs in a power distribution system with a closed loop was analyzed. It was confirmed that a simple using voltage component in the OCR could cause the trip variation of the reverse direction OCR in loop power system and it can be improved by matching the relaying voltage components. Keywords Superconducting fault current limiter (SFCL) · Overcurrent relay (OCR) · Power system protection · Protection coordination
1 Introduction Future maximum electric power demand is expected to increase steadily. Even if the rate of increase of electric power demand will become low, the increase of the fault current due to the introduction of the distributed power source along with the development of the industry remains a problem to be solved in the electric power industry. Likewise, with the 3020 policy of Korea, the expansion of renewable energy increases the fault current and has the potential to generate unintended bi-directional power flow. These * Sung‑Hun Lim [email protected] 1
Department of Electrical Engineering, Korea Electrical Safety Corporation, Soongsil University, Seoul, Korea
Department of Electrical Engineering, Soongsil University, Seoul, Korea
2
changes in the system limit the capacity and functionality of the protective devices used s
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