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KCIAs the penetration of Variable Renewable Energy (VRE) increases, the power system may face risks of frequency decline due to the degradation of system inertia and an increase in the Rate of Change of Frequency (RoCoF). The negative impact on frequency...
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RISS 인기검색어
신재생에너지 확대에 따른 계통 해석 기반 기준 분석 UFR = Analysis of UFR Criteria Based on System Analysis According to Expansion of Renewable Energy
한글로보기https://www.riss.kr/link?id=A109165172
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2024
-
작성언어
Korean
- 주제어
-
등재정보
KCI등재,SCOPUS
-
자료형태
학술저널
- 발행기관 URL
-
수록면
1280-1290(11쪽)
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
As the penetration of Variable Renewable Energy (VRE) increases, the power system may face risks of frequency decline due to the degradation of system inertia and an increase in the Rate of Change of Frequency (RoCoF). The negative impact on frequency stability highlights the importance of establishing Under Frequency Relay (UFR) as well as defining procedures and criteria for frequency decline protection. For UFR analysis, real performance data is extracted based on the current electrical facilities and loads connected to the system. By reflecting this extracted data, system constants are calculated, and through these constants, frequency computations over time are conducted to establish optimal operating strategies for UFR. In other words, current methods of establishing UFR standards are based on real data. However, this paper analyzes UFR standards in operation using the Power Simulation Simulator for Engineering (PSS/E), a large-scale power system analysis program, establishes an optimal UFR operation plan for the system, and targets future systems that are planned but not yet connected
As the penetration of Variable Renewable Energy (VRE) increases, the power system may face risks of frequency decline due to the degradation of system inertia and an increase in the Rate of Change of Frequency (RoCoF). The negative impact on frequency stability highlights the importance of establishing Under Frequency Relay (UFR) as well as defining procedures and criteria for frequency decline protection. For UFR analysis, real performance data is extracted based on the current electrical facilities and loads connected to the system. By reflecting this extracted data, system constants are calculated, and through these constants, frequency computations over time are conducted to establish optimal operating strategies for UFR. In other words, current methods of establishing UFR standards are based on real data. However, this paper analyzes UFR standards in operation using the Power Simulation Simulator for Engineering (PSS/E), a large-scale power system analysis program, establishes an optimal UFR operation plan for the system, and targets future systems that are planned but not yet connected
참고문헌 (Reference)
1 Australian Energy Market Operator(AEMO), "Under Frequency Load Shedding Requirements" 2022
2 Ministry of Trade, Industry and Energy(MOTIE), "The 10th basic Plan for Power Supply and Demand" 2023
3 European Network of Transmission System Operators for Electricity(ENTSO-E), "Technical background for the Low Frequency Demand Disconnection requirement" 2014
4 North American Electric Reliability Corporation(NERC), "Reliability Guideline Recommended Approaches for UFLS Program Design with Increasing Penetrations of DERs" 2021
5 Hydro-Quebec, "Procedure for PSS/E models validation" 2021
6 Australian Energy Market Operator(AEMO), "Power System Model Guidelines" 2018
7 Korea Power Exchange(KPX), "Power Market Operations Rules" 2021
8 Australian Energy Market Operator(AEMO), "Phase 1UFLS Review : Queensland" 2021
9 FINGRID, "Network code on emergency and restoration requirements and implementation in Finland" 2022
10 Samuel Gordon, "Impact of Low Inertia and High Distributed Generation on the Effectiveness of Under Frequency Load Shedding Schemes" 37 (37): 3752-3761, 2022
1 Australian Energy Market Operator(AEMO), "Under Frequency Load Shedding Requirements" 2022
2 Ministry of Trade, Industry and Energy(MOTIE), "The 10th basic Plan for Power Supply and Demand" 2023
3 European Network of Transmission System Operators for Electricity(ENTSO-E), "Technical background for the Low Frequency Demand Disconnection requirement" 2014
4 North American Electric Reliability Corporation(NERC), "Reliability Guideline Recommended Approaches for UFLS Program Design with Increasing Penetrations of DERs" 2021
5 Hydro-Quebec, "Procedure for PSS/E models validation" 2021
6 Australian Energy Market Operator(AEMO), "Power System Model Guidelines" 2018
7 Korea Power Exchange(KPX), "Power Market Operations Rules" 2021
8 Australian Energy Market Operator(AEMO), "Phase 1UFLS Review : Queensland" 2021
9 FINGRID, "Network code on emergency and restoration requirements and implementation in Finland" 2022
10 Samuel Gordon, "Impact of Low Inertia and High Distributed Generation on the Effectiveness of Under Frequency Load Shedding Schemes" 37 (37): 3752-3761, 2022
11 Korea Power Exchange(KPX), "A Study on the characteristics of Voltage Variation in Load Blocking by System Frequency Characteristic Constant Redetermination and Low Frequency Relay" 987-988, 2022
12 Byung Kwan An, "A Study on the Adjustment of Under Frequency Load Shedding Considering the Renewable Energy connection Capacity in Jeju Power system" 2022
13 The Office of Gas and Electricity Markets (Ofgem), "9August 2019 power outage report" 2020
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