A novel time-domain method for fault detection and classification in VSC-HVDC transmission lines

•Proposing a fault detection and classification scheme for bipolar HVDC system without communication medium using ITD algorithm.•An analytical procedure of setting the ITD's parameters is presented to determine the optimal number of iteration and threshold value index of fault identification pr...

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Veröffentlicht in:	International journal of electrical power & energy systems Jg. 140; S. 108056
Hauptverfasser:	Imani, Amir, Moravej, Zahra, Pazoki, Mohammad
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	Elsevier Ltd 01.09.2022
Schlagworte:	Fault detection and classification HVDC protection HVDC system Intrinsic Time Decomposition (ITD) Intrinsic Time Decomposition (ITD) Fault detection and classification HVDC protection HVDC system
ISSN:	0142-0615
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Abstract	•Proposing a fault detection and classification scheme for bipolar HVDC system without communication medium using ITD algorithm.•An analytical procedure of setting the ITD's parameters is presented to determine the optimal number of iteration and threshold value index of fault identification process.•More efficient performance in fault detection and classification in the case of recognition speed, simplicity, setting free, and low computation burden.•The robustness of proposed protection scheme is evaluated by changing the fault parameters such as: fault resistance and fault location. The impact of noise contamination, sampling frequency and changing smoothing reactor parameters are validated, as well.•The simulation validation is carried out in two benchmark models of MATAB and PSCAD software. The short circuit fault current is one of the worst contingencies in voltage source converter (VSC)-based high voltage direct current (HVDC) system. Therefore, having a fast, robust, and selective protection scheme is necessary in HVDC systems. In this paper, a non-communication-based protection scheme is presented using Intrinsic Time Decomposition (ITD) technique in a HVDC system. This time domain approach owns some prominent features such as high speed, low sampling rate and computational burden and no need for parameter's setting. The proposed protection scheme relies on the current signal sampled from the single end. The concept is to obtain the proper rotation component (PRC) of input signal and computing an energy index named Teager Kaiser Energy Operator (TKEO) to identify the fault occurrence in a HVDC line. The performance of the proposed scheme has been assessed against various scenarios including external disturbance such as ac faults and abrupt change of active power in two standard sample systems in MATLAB/SIMULINK and PSCAD/EMTDC environments. In addition, a wide range of internal dc faults are studied to evaluate the sensitivity of the scheme. The appropriate performance of the scheme is verified and the fault detection and classification tasks are done in less than 1 ms.
AbstractList	•Proposing a fault detection and classification scheme for bipolar HVDC system without communication medium using ITD algorithm.•An analytical procedure of setting the ITD's parameters is presented to determine the optimal number of iteration and threshold value index of fault identification process.•More efficient performance in fault detection and classification in the case of recognition speed, simplicity, setting free, and low computation burden.•The robustness of proposed protection scheme is evaluated by changing the fault parameters such as: fault resistance and fault location. The impact of noise contamination, sampling frequency and changing smoothing reactor parameters are validated, as well.•The simulation validation is carried out in two benchmark models of MATAB and PSCAD software. The short circuit fault current is one of the worst contingencies in voltage source converter (VSC)-based high voltage direct current (HVDC) system. Therefore, having a fast, robust, and selective protection scheme is necessary in HVDC systems. In this paper, a non-communication-based protection scheme is presented using Intrinsic Time Decomposition (ITD) technique in a HVDC system. This time domain approach owns some prominent features such as high speed, low sampling rate and computational burden and no need for parameter's setting. The proposed protection scheme relies on the current signal sampled from the single end. The concept is to obtain the proper rotation component (PRC) of input signal and computing an energy index named Teager Kaiser Energy Operator (TKEO) to identify the fault occurrence in a HVDC line. The performance of the proposed scheme has been assessed against various scenarios including external disturbance such as ac faults and abrupt change of active power in two standard sample systems in MATLAB/SIMULINK and PSCAD/EMTDC environments. In addition, a wide range of internal dc faults are studied to evaluate the sensitivity of the scheme. The appropriate performance of the scheme is verified and the fault detection and classification tasks are done in less than 1 ms.
ArticleNumber	108056
Author	Imani, Amir Moravej, Zahra Pazoki, Mohammad
Author_xml	– sequence: 1 givenname: Amir surname: Imani fullname: Imani, Amir organization: Faculty of Electrical and Computer Engineering, Semnan University, Semnan, Iran – sequence: 2 givenname: Zahra surname: Moravej fullname: Moravej, Zahra email: zmoravej@semnan.ac.ir organization: Faculty of Electrical and Computer Engineering, Semnan University, Semnan, Iran – sequence: 3 givenname: Mohammad surname: Pazoki fullname: Pazoki, Mohammad organization: School of Engineering, Damghan University, Damghan, Iran
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Snippet	•Proposing a fault detection and classification scheme for bipolar HVDC system without communication medium using ITD algorithm.•An analytical procedure of...
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SubjectTerms	Fault detection and classification HVDC protection HVDC system Intrinsic Time Decomposition (ITD)
Title	A novel time-domain method for fault detection and classification in VSC-HVDC transmission lines
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