Improvement of the impedance-based loss-of-field protection scheme based on the dynamic behavior of the synchronous generators
•Preventing the wrong performance of the CIBR during SPS events and as a result improving its performance.•Introducing two practical and easy implementable blocking functions for the CIBR.•Providing the cost-effective supplementary functions using the available signals at SG connection point.•Reliab...
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Veröffentlicht in: | International journal of electrical power & energy systems 2022-10, Vol.141, p.108221, Article 108221 |
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Sprache: | eng |
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Zusammenfassung: | •Preventing the wrong performance of the CIBR during SPS events and as a result improving its performance.•Introducing two practical and easy implementable blocking functions for the CIBR.•Providing the cost-effective supplementary functions using the available signals at SG connection point.•Reliable discrimination between the various LoF events and other disturbances of the power system.
This paper deals with an innovative Loss of Field Protection Scheme (LoFPS), in which, some key supplementary features are provided to avoid spurious trip of the Conventional Impedance-Based Relay (CIBR) during Stable Power Swing (SPS). The proposed algorithm is developed for two conditions of the multiple-parallel-synchronous generator (SG) and single-SG in service. Entrance time (ti) of Z-trajectory to the CIBR zones is utilized for single-SG in service owing to the different dynamic responses of the SG to the LoF/SPS events. Meanwhile, for the multiple-parallel-SGs condition, the average value of the variation of the output reactive current of SG (ΔIRSG¯) is selected to analyze the dynamic behavior of the faulty- and healthy-parallel-SGs. The ΔIRSG¯ for all the parallel-SGs during both normal and SPS conditions has a similar polarity, whereas during LoF incidence in one SG, its polarity is different for the faulty and healthy-parallel SGs. Therefore, the nuisance trip of the CIBR can be easily avoided by implementing the selected features. Widespread simulation studies in MATLAB/Simulink environment on the IEEE 9-bus test system affirm the superiority, higher reliability, and easy implementation of the developed LoFPS than other schemes, especially the CIBR ones. |
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ISSN: | 0142-0615 1879-3517 |
DOI: | 10.1016/j.ijepes.2022.108221 |