Online Detection of Out-of-Step Condition Using PMU-Determined System Impedances

M. Tealane; Jako  Kilter; M. Popov; Oleg  Bagleybter; D Klaar

doi:10.1109/ACCESS.2022.3149103

Online Detection of Out-of-Step Condition Using PMU-Determined System Impedances

M. Tealane, Jako Kilter, M. Popov^*, Oleg Bagleybter, D Klaar

^*Corresponding author for this work

Intelligent Electrical Power Grids

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

6 Citations (Scopus)

128 Downloads (Pure)

Abstract

This paper presents a robust and adaptive out-of-step (OOS) protection algorithm, using wide-area information, that can be applied on tie-lines in observable power systems. The developed algorithm is based upon real-time computation of the system impedance and makes use of the well-known power-angle characteristic. In this way, a setting-less OOS concept in real-time environment is developed, which is applicable for tie-lines in an arbitrary power system. Furthermore, the developed protection algorithm is installed on hardware and is verified by numerous tests. The performance of the new hardware implementation is compared to the traditional impedance-based OOS protection methods. The results confirm that the proposed algorithm detects OOS conditions faster and more reliably than the traditional impedance-based solutions.

Original language	English
Pages (from-to)	14807-14818
Number of pages	12
Journal	IEEE Access
Volume	10
DOIs	https://doi.org/10.1109/ACCESS.2022.3149103
Publication status	Published - 2022

Keywords

Out-of-step protection
real-time HiL testing
tie-lines
power system transient stability

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10.1109/ACCESS.2022.3149103

Online_Detection_of_Out-of-Step_Condition_Using_PMU-Determined_System_ImpedancesFinal published version, 3.59 MBLicence: CC BY

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title = "Online Detection of Out-of-Step Condition Using PMU-Determined System Impedances",

abstract = "This paper presents a robust and adaptive out-of-step (OOS) protection algorithm, using wide-area information, that can be applied on tie-lines in observable power systems. The developed algorithm is based upon real-time computation of the system impedance and makes use of the well-known power-angle characteristic. In this way, a setting-less OOS concept in real-time environment is developed, which is applicable for tie-lines in an arbitrary power system. Furthermore, the developed protection algorithm is installed on hardware and is verified by numerous tests. The performance of the new hardware implementation is compared to the traditional impedance-based OOS protection methods. The results confirm that the proposed algorithm detects OOS conditions faster and more reliably than the traditional impedance-based solutions.",

keywords = "Out-of-step protection, real-time HiL testing, tie-lines, power system transient stability",

author = "M. Tealane and Jako Kilter and M. Popov and Oleg Bagleybter and D Klaar",

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T1 - Online Detection of Out-of-Step Condition Using PMU-Determined System Impedances

AU - Tealane, M.

AU - Kilter, Jako

AU - Popov, M.

AU - Bagleybter, Oleg

AU - Klaar, D

PY - 2022

Y1 - 2022

N2 - This paper presents a robust and adaptive out-of-step (OOS) protection algorithm, using wide-area information, that can be applied on tie-lines in observable power systems. The developed algorithm is based upon real-time computation of the system impedance and makes use of the well-known power-angle characteristic. In this way, a setting-less OOS concept in real-time environment is developed, which is applicable for tie-lines in an arbitrary power system. Furthermore, the developed protection algorithm is installed on hardware and is verified by numerous tests. The performance of the new hardware implementation is compared to the traditional impedance-based OOS protection methods. The results confirm that the proposed algorithm detects OOS conditions faster and more reliably than the traditional impedance-based solutions.

AB - This paper presents a robust and adaptive out-of-step (OOS) protection algorithm, using wide-area information, that can be applied on tie-lines in observable power systems. The developed algorithm is based upon real-time computation of the system impedance and makes use of the well-known power-angle characteristic. In this way, a setting-less OOS concept in real-time environment is developed, which is applicable for tie-lines in an arbitrary power system. Furthermore, the developed protection algorithm is installed on hardware and is verified by numerous tests. The performance of the new hardware implementation is compared to the traditional impedance-based OOS protection methods. The results confirm that the proposed algorithm detects OOS conditions faster and more reliably than the traditional impedance-based solutions.

KW - Out-of-step protection

KW - real-time HiL testing

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KW - power system transient stability

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JO - IEEE Access

JF - IEEE Access

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Online Detection of Out-of-Step Condition Using PMU-Determined System Impedances

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Keywords

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