An influence of voltage sag duration on nonutility generator's shaft torque

T. Funabashi; H. Otoguro; Goro Fujita; K. Koyanagi; R. Yokoyama

doi:10.1109/PESW.2000.849946

An influence of voltage sag duration on nonutility generator's shaft torque

T. Funabashi, H. Otoguro, Goro Fujita, K. Koyanagi, R. Yokoyama

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

11 Citations (Scopus)

Abstract

An influence of the voltage sag magnitude and duration on nonutility generator's mechanical shaft torque is investigated by simulations using the Electromagnetic Transients Program (ATP-EMTP). Various types of fault are simulated, changing the fault point, the number of faulted phases and the voltage phase angle at the moment of fault occurring. From the simulation results, it becomes clear that the high-speed static switchgear is effective for the stable operation of the in-house generation systems and the critical loads, which are subjected to the voltage sag.

Original language	English
Title of host publication	2000 IEEE Power Engineering Society, Conference Proceedings
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	153-158
Number of pages	6
Volume	1
ISBN (Print)	0780359356, 9780780359352
DOIs	https://doi.org/10.1109/PESW.2000.849946
Publication status	Published - 2000
Event	IEEE Power Engineering Society Winter Meeting, 2000 - Singapore, Singapore Duration: 2000 Jan 23 → 2000 Jan 27

Other

Other	IEEE Power Engineering Society Winter Meeting, 2000
Country/Territory	Singapore
City	Singapore
Period	00/1/23 → 00/1/27

Keywords

ATP-EMTP
Co-generation systems
Non-utility generator
Static switch-gear
Voltage sag

ASJC Scopus subject areas

Energy Engineering and Power Technology
Electrical and Electronic Engineering

Access to Document

10.1109/PESW.2000.849946

Cite this

Funabashi, T, Otoguro, H, Fujita, G, Koyanagi, K & Yokoyama, R 2000, An influence of voltage sag duration on nonutility generator's shaft torque. in 2000 IEEE Power Engineering Society, Conference Proceedings. vol. 1, 849946, Institute of Electrical and Electronics Engineers Inc., pp. 153-158, IEEE Power Engineering Society Winter Meeting, 2000, Singapore, Singapore, 00/1/23. https://doi.org/10.1109/PESW.2000.849946

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abstract = "An influence of the voltage sag magnitude and duration on nonutility generator's mechanical shaft torque is investigated by simulations using the Electromagnetic Transients Program (ATP-EMTP). Various types of fault are simulated, changing the fault point, the number of faulted phases and the voltage phase angle at the moment of fault occurring. From the simulation results, it becomes clear that the high-speed static switchgear is effective for the stable operation of the in-house generation systems and the critical loads, which are subjected to the voltage sag.",

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N2 - An influence of the voltage sag magnitude and duration on nonutility generator's mechanical shaft torque is investigated by simulations using the Electromagnetic Transients Program (ATP-EMTP). Various types of fault are simulated, changing the fault point, the number of faulted phases and the voltage phase angle at the moment of fault occurring. From the simulation results, it becomes clear that the high-speed static switchgear is effective for the stable operation of the in-house generation systems and the critical loads, which are subjected to the voltage sag.

AB - An influence of the voltage sag magnitude and duration on nonutility generator's mechanical shaft torque is investigated by simulations using the Electromagnetic Transients Program (ATP-EMTP). Various types of fault are simulated, changing the fault point, the number of faulted phases and the voltage phase angle at the moment of fault occurring. From the simulation results, it becomes clear that the high-speed static switchgear is effective for the stable operation of the in-house generation systems and the critical loads, which are subjected to the voltage sag.

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KW - Static switch-gear

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An influence of voltage sag duration on nonutility generator's shaft torque

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Keywords

ASJC Scopus subject areas

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