Microgrid fault detection technique using phase change of positive sequence current
Microgrid fault detection technique using phase change of positive sequence current
This article presents a new algorithm for fault detection in grid-tied microgrids with inverter-interfaced distributed generators (DGs). To support the Grid codes, the DGs require a low voltage ride through (LVRT) capability. The control strategy used in the DGs results in large changes in the fault characteristics of the microgrid. Hence, it is required to study the fault characteristics of the DGs in a microgrid under various operating conditions. The study presents fault detection for microgrids with PQ-controlled DGs having LVRT capability under different DG voltage and different fault conditions (high impedance and low impedance). The fault location has been identified using the phase change in the positive sequence current at specific DG voltages. The reliability of the proposed scheme has been validated under diverse fault conditions through extensive simulations in the Matlab/ Simulink environment, and the comparison with other fault detection techniques proves the efficacy of the proposed scheme for fault detection in microgrids.
171-184
Pavankumar, Yadala
5cd41b9c-57cc-4ac1-b36d-4143d5d1a81b
Debnath, Sudipta
78351e14-b824-4d90-8e9f-4c2f7bd51d89
Paul, Subrata
6d6fec34-30f6-4e18-904b-8b13b9a89d35
Pavankumar, Yadala
5cd41b9c-57cc-4ac1-b36d-4143d5d1a81b
Debnath, Sudipta
78351e14-b824-4d90-8e9f-4c2f7bd51d89
Paul, Subrata
6d6fec34-30f6-4e18-904b-8b13b9a89d35
Pavankumar, Yadala, Debnath, Sudipta and Paul, Subrata
(2023)
Microgrid fault detection technique using phase change of positive sequence current.
International Journal of Modelling and Simulation, 43 (3), .
(doi:10.1080/02286203.2022.2059613).
Abstract
This article presents a new algorithm for fault detection in grid-tied microgrids with inverter-interfaced distributed generators (DGs). To support the Grid codes, the DGs require a low voltage ride through (LVRT) capability. The control strategy used in the DGs results in large changes in the fault characteristics of the microgrid. Hence, it is required to study the fault characteristics of the DGs in a microgrid under various operating conditions. The study presents fault detection for microgrids with PQ-controlled DGs having LVRT capability under different DG voltage and different fault conditions (high impedance and low impedance). The fault location has been identified using the phase change in the positive sequence current at specific DG voltages. The reliability of the proposed scheme has been validated under diverse fault conditions through extensive simulations in the Matlab/ Simulink environment, and the comparison with other fault detection techniques proves the efficacy of the proposed scheme for fault detection in microgrids.
Text
Microgrid fault detection technique using phase change of Positive sequence current
More information
Accepted/In Press date: 26 March 2022
e-pub ahead of print date: 4 May 2023
Identifiers
Local EPrints ID: 499820
URI: http://eprints.soton.ac.uk/id/eprint/499820
ISSN: 0228-6203
PURE UUID: bc0faa87-babc-4836-99af-a1abd1695e5f
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Date deposited: 07 Apr 2025 16:34
Last modified: 08 Apr 2025 02:12
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Author:
Yadala Pavankumar
Author:
Sudipta Debnath
Author:
Subrata Paul
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