Real-Time Detection and Localization of Line Trip Event via Relative Phase Angles

He Yin; Wei Qiu; Yuru Wu; Shutang You; Yuqing Dong; Wenpeng Yu; Yilu Liu

doi:10.1109/TPWRS.2023.3287233

Real-Time Detection and Localization of Line Trip Event via Relative Phase Angles

He Yin
, Wei Qiu
, Yuru Wu
, Shutang You
, Yuqing Dong
, Wenpeng Yu
, Yilu Liu

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Line trip events widely exist in power systems. They can result in power outages and a huge economic loss if not promptly detected and localized. To provide a fast and precise solution, this article presents a Complete Coverage of Voltage Measurement (CCVM)-based line trip event detection algorithm and a Relative Phase Angle (RPA)-based line trip event localization algorithm. First, frequency and relative phase angle features during a line trip event are calculated. Then, the CCVM-based algorithm is proposed from both frequency and rate of change of frequency estimation algorithm aspects. Additionally, the RPA-based algorithm is presented, and two cases are studied to demonstrate the uniqueness of the proposed algorithm. Various experiments are conducted, where the simulation results demonstrate that the proposed CCVM-based algorithm can detect a line trip event as short as 2.07 ms. In addition, the RPA-based algorithm has 1.26 times higher localization accuracy compared with the frequency magnitude-based and phase angle-based algorithms. The experiment results on the examples from two interconnected power systems in the U.S. verified the performance of the proposed algorithms in wide-area power systems.

Original language	English
Pages (from-to)	3459-3470
Number of pages	12
Journal	IEEE Transactions on Power Systems
Volume	39
Issue number	2
DOIs	https://doi.org/10.1109/TPWRS.2023.3287233
State	Published - Mar 1 2024
Externally published	Yes

Funding

This work was supported in part by Engineering Research Center shared facilities, in part by Engineering Research Center Program of the National Science Foundation (NSF), in part by the Department of Energy under NSF AwardNumber EEC-1041877, and in part by the CURENT Industry Partnership Program. Paper no. TPWRS-01613-2022.

Keywords

Line trip event detection
event localization
relative phase angle
wide-area power systems

Access to Document

10.1109/TPWRS.2023.3287233

Cite this

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title = "Real-Time Detection and Localization of Line Trip Event via Relative Phase Angles",

abstract = "Line trip events widely exist in power systems. They can result in power outages and a huge economic loss if not promptly detected and localized. To provide a fast and precise solution, this article presents a Complete Coverage of Voltage Measurement (CCVM)-based line trip event detection algorithm and a Relative Phase Angle (RPA)-based line trip event localization algorithm. First, frequency and relative phase angle features during a line trip event are calculated. Then, the CCVM-based algorithm is proposed from both frequency and rate of change of frequency estimation algorithm aspects. Additionally, the RPA-based algorithm is presented, and two cases are studied to demonstrate the uniqueness of the proposed algorithm. Various experiments are conducted, where the simulation results demonstrate that the proposed CCVM-based algorithm can detect a line trip event as short as 2.07 ms. In addition, the RPA-based algorithm has 1.26 times higher localization accuracy compared with the frequency magnitude-based and phase angle-based algorithms. The experiment results on the examples from two interconnected power systems in the U.S. verified the performance of the proposed algorithms in wide-area power systems.",

keywords = "Line trip event detection, event localization, relative phase angle, wide-area power systems",

author = "He Yin and Wei Qiu and Yuru Wu and Shutang You and Yuqing Dong and Wenpeng Yu and Yilu Liu",

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T1 - Real-Time Detection and Localization of Line Trip Event via Relative Phase Angles

AU - Yin, He

AU - Qiu, Wei

AU - Wu, Yuru

AU - You, Shutang

AU - Dong, Yuqing

AU - Yu, Wenpeng

AU - Liu, Yilu

PY - 2024/3/1

Y1 - 2024/3/1

N2 - Line trip events widely exist in power systems. They can result in power outages and a huge economic loss if not promptly detected and localized. To provide a fast and precise solution, this article presents a Complete Coverage of Voltage Measurement (CCVM)-based line trip event detection algorithm and a Relative Phase Angle (RPA)-based line trip event localization algorithm. First, frequency and relative phase angle features during a line trip event are calculated. Then, the CCVM-based algorithm is proposed from both frequency and rate of change of frequency estimation algorithm aspects. Additionally, the RPA-based algorithm is presented, and two cases are studied to demonstrate the uniqueness of the proposed algorithm. Various experiments are conducted, where the simulation results demonstrate that the proposed CCVM-based algorithm can detect a line trip event as short as 2.07 ms. In addition, the RPA-based algorithm has 1.26 times higher localization accuracy compared with the frequency magnitude-based and phase angle-based algorithms. The experiment results on the examples from two interconnected power systems in the U.S. verified the performance of the proposed algorithms in wide-area power systems.

AB - Line trip events widely exist in power systems. They can result in power outages and a huge economic loss if not promptly detected and localized. To provide a fast and precise solution, this article presents a Complete Coverage of Voltage Measurement (CCVM)-based line trip event detection algorithm and a Relative Phase Angle (RPA)-based line trip event localization algorithm. First, frequency and relative phase angle features during a line trip event are calculated. Then, the CCVM-based algorithm is proposed from both frequency and rate of change of frequency estimation algorithm aspects. Additionally, the RPA-based algorithm is presented, and two cases are studied to demonstrate the uniqueness of the proposed algorithm. Various experiments are conducted, where the simulation results demonstrate that the proposed CCVM-based algorithm can detect a line trip event as short as 2.07 ms. In addition, the RPA-based algorithm has 1.26 times higher localization accuracy compared with the frequency magnitude-based and phase angle-based algorithms. The experiment results on the examples from two interconnected power systems in the U.S. verified the performance of the proposed algorithms in wide-area power systems.

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KW - relative phase angle

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Real-Time Detection and Localization of Line Trip Event via Relative Phase Angles

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Keywords

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