A dynamic strategy to improve the ride-through capability of a fixed speed induction generator

Lucheng Hong; Qirong Jiang; Liang Wang

doi:10.1002/etep.2538

A dynamic strategy to improve the ride-through capability of a fixed speed induction generator

Lucheng Hong^*, Qirong Jiang, Liang Wang

^*Corresponding author for this work

School of Automation

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

3 Citations (Scopus)

Abstract

Based on the analysis of the short current of the fixed speed induction generator (FSIG) under symmetrical system faults, a strategy using the dynamic voltage restorer (DVR) is proposed to improve the low-voltage ride through (LVRT) capability of FSIGs. During the system fault, LVRT-DVR is connected in series between the grid and the generator by switching-off the by-pass bidirectional thyristors and provides a compensating voltage to isolate FSIG from the system fault. To increase the switch-in speed of LVRT-DVR, an antivoltage technique is used to shut the thyristors off immediately. After the fault is cleared, the phase-shifting control is applied to avoid phase jumps of the FSIG terminal voltage. The PSCAD/EMTDC simulation and field tests have been carried out to prove the effectiveness of the proposed LVRT strategy, and related conclusions and comments are summarized.

Original language	English
Article number	e2538
Journal	International Transactions on Electrical Energy Systems
Volume	28
Issue number	5
DOIs	https://doi.org/10.1002/etep.2538
Publication status	Published - May 2018

Keywords

induction generator
voltage compensation
voltage dip
wind power

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10.1002/etep.2538

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title = "A dynamic strategy to improve the ride-through capability of a fixed speed induction generator",

abstract = "Based on the analysis of the short current of the fixed speed induction generator (FSIG) under symmetrical system faults, a strategy using the dynamic voltage restorer (DVR) is proposed to improve the low-voltage ride through (LVRT) capability of FSIGs. During the system fault, LVRT-DVR is connected in series between the grid and the generator by switching-off the by-pass bidirectional thyristors and provides a compensating voltage to isolate FSIG from the system fault. To increase the switch-in speed of LVRT-DVR, an antivoltage technique is used to shut the thyristors off immediately. After the fault is cleared, the phase-shifting control is applied to avoid phase jumps of the FSIG terminal voltage. The PSCAD/EMTDC simulation and field tests have been carried out to prove the effectiveness of the proposed LVRT strategy, and related conclusions and comments are summarized.",

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author = "Lucheng Hong and Qirong Jiang and Liang Wang",

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AU - Hong, Lucheng

AU - Jiang, Qirong

AU - Wang, Liang

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N2 - Based on the analysis of the short current of the fixed speed induction generator (FSIG) under symmetrical system faults, a strategy using the dynamic voltage restorer (DVR) is proposed to improve the low-voltage ride through (LVRT) capability of FSIGs. During the system fault, LVRT-DVR is connected in series between the grid and the generator by switching-off the by-pass bidirectional thyristors and provides a compensating voltage to isolate FSIG from the system fault. To increase the switch-in speed of LVRT-DVR, an antivoltage technique is used to shut the thyristors off immediately. After the fault is cleared, the phase-shifting control is applied to avoid phase jumps of the FSIG terminal voltage. The PSCAD/EMTDC simulation and field tests have been carried out to prove the effectiveness of the proposed LVRT strategy, and related conclusions and comments are summarized.

AB - Based on the analysis of the short current of the fixed speed induction generator (FSIG) under symmetrical system faults, a strategy using the dynamic voltage restorer (DVR) is proposed to improve the low-voltage ride through (LVRT) capability of FSIGs. During the system fault, LVRT-DVR is connected in series between the grid and the generator by switching-off the by-pass bidirectional thyristors and provides a compensating voltage to isolate FSIG from the system fault. To increase the switch-in speed of LVRT-DVR, an antivoltage technique is used to shut the thyristors off immediately. After the fault is cleared, the phase-shifting control is applied to avoid phase jumps of the FSIG terminal voltage. The PSCAD/EMTDC simulation and field tests have been carried out to prove the effectiveness of the proposed LVRT strategy, and related conclusions and comments are summarized.

KW - induction generator

KW - voltage compensation

KW - voltage dip

KW - wind power

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A dynamic strategy to improve the ride-through capability of a fixed speed induction generator

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Keywords

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