Power Differential Protection for Transformer Based on Fault Component Network

Fang Peng; Houlei Gao; Jiakai Huang; Yifei Guo; Yiqing Liu; Yongfeng Zhang

doi:10.1109/TPWRD.2023.3244535

Power Differential Protection for Transformer Based on Fault Component Network

Fang Peng, Houlei Gao^*, Jiakai Huang, Yifei Guo, Yiqing Liu, Yongfeng Zhang

^*Corresponding author for this work

Engineering

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

4 Citations (Scopus)

Abstract

Current differential protection has been widely used as the primary protection of transformers. However, inrush currents during transformer energization can cause misoperation of the protection when the second harmonic restraint algorithm fails. This article proposes a power differential protection scheme based on the fault component network (FCN), which is free from inrush detection and computationally cheap. First, the fault component differential power (FCDP), defined as the differential active power of a transformer in the FCN, is analyzed under different conditions. Second, a transformer protection scheme is presented based on the FCDP and the traditional differential power. A removal algorithm of decaying direct current (DDC) offset is developed to accurately estimate the FCDP. The performance of the scheme is tested under various conditions, including internal faults, external faults and transformer energization. The simulations using PSCAD and Real Time Digital Simulator (RTDS), experiments in the Electrical Power Dynamic Laboratory (EPDL) and real recording data validate that the proposed method can protect the transformer reliably.

Original language	English
Pages (from-to)	2464-2477
Number of pages	14
Journal	IEEE Transactions on Power Delivery
Volume	38
Issue number	4
Early online date	13 Feb 2023
DOIs	https://doi.org/10.1109/TPWRD.2023.3244535
Publication status	Published - Aug 2023

Bibliographical note

Funding Information:
This work was supported in part by the National Natural Science Foundation of China under Grant 51877127, and in part by Shandong Provincial Natural Science Foundation of China under GrantZR2022ME097. Paper no. TPWRD-00997-2022.

Keywords

Current differential protection
fault component
magnetizing inrush
power differential protection
power transformer

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title = "Power Differential Protection for Transformer Based on Fault Component Network",

abstract = "Current differential protection has been widely used as the primary protection of transformers. However, inrush currents during transformer energization can cause misoperation of the protection when the second harmonic restraint algorithm fails. This article proposes a power differential protection scheme based on the fault component network (FCN), which is free from inrush detection and computationally cheap. First, the fault component differential power (FCDP), defined as the differential active power of a transformer in the FCN, is analyzed under different conditions. Second, a transformer protection scheme is presented based on the FCDP and the traditional differential power. A removal algorithm of decaying direct current (DDC) offset is developed to accurately estimate the FCDP. The performance of the scheme is tested under various conditions, including internal faults, external faults and transformer energization. The simulations using PSCAD and Real Time Digital Simulator (RTDS), experiments in the Electrical Power Dynamic Laboratory (EPDL) and real recording data validate that the proposed method can protect the transformer reliably.",

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author = "Fang Peng and Houlei Gao and Jiakai Huang and Yifei Guo and Yiqing Liu and Yongfeng Zhang",

note = "Funding Information: This work was supported in part by the National Natural Science Foundation of China under Grant 51877127, and in part by Shandong Provincial Natural Science Foundation of China under GrantZR2022ME097. Paper no. TPWRD-00997-2022. ",

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AU - Gao, Houlei

AU - Huang, Jiakai

AU - Guo, Yifei

AU - Liu, Yiqing

AU - Zhang, Yongfeng

N1 - Funding Information: This work was supported in part by the National Natural Science Foundation of China under Grant 51877127, and in part by Shandong Provincial Natural Science Foundation of China under GrantZR2022ME097. Paper no. TPWRD-00997-2022.

PY - 2023/8

Y1 - 2023/8

N2 - Current differential protection has been widely used as the primary protection of transformers. However, inrush currents during transformer energization can cause misoperation of the protection when the second harmonic restraint algorithm fails. This article proposes a power differential protection scheme based on the fault component network (FCN), which is free from inrush detection and computationally cheap. First, the fault component differential power (FCDP), defined as the differential active power of a transformer in the FCN, is analyzed under different conditions. Second, a transformer protection scheme is presented based on the FCDP and the traditional differential power. A removal algorithm of decaying direct current (DDC) offset is developed to accurately estimate the FCDP. The performance of the scheme is tested under various conditions, including internal faults, external faults and transformer energization. The simulations using PSCAD and Real Time Digital Simulator (RTDS), experiments in the Electrical Power Dynamic Laboratory (EPDL) and real recording data validate that the proposed method can protect the transformer reliably.

AB - Current differential protection has been widely used as the primary protection of transformers. However, inrush currents during transformer energization can cause misoperation of the protection when the second harmonic restraint algorithm fails. This article proposes a power differential protection scheme based on the fault component network (FCN), which is free from inrush detection and computationally cheap. First, the fault component differential power (FCDP), defined as the differential active power of a transformer in the FCN, is analyzed under different conditions. Second, a transformer protection scheme is presented based on the FCDP and the traditional differential power. A removal algorithm of decaying direct current (DDC) offset is developed to accurately estimate the FCDP. The performance of the scheme is tested under various conditions, including internal faults, external faults and transformer energization. The simulations using PSCAD and Real Time Digital Simulator (RTDS), experiments in the Electrical Power Dynamic Laboratory (EPDL) and real recording data validate that the proposed method can protect the transformer reliably.

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Power Differential Protection for Transformer Based on Fault Component Network

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Keywords

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