Generalized analysis method of auto-parametric resonances in power systems

N. Yorino; H. Sasaki; Y. Tamura; R. Yokoyama

doi:10.1109/59.32599

Generalized analysis method of auto-parametric resonances in power systems

N. Yorino^*, H. Sasaki, Y. Tamura, R. Yokoyama

^*Corresponding author for this work

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

49 Citations (Scopus)

Abstract

The envelope equation derived earlier is generalized to analyze a resonance among multiple modes by using the method of multiple scales, an excellent method for analyzing large-scale nonlinear systems. It is demonstrated through numerical simulations that the generalized envelope equation is valid for predicting the resonance phenomena themselves and also for examining the critical factors responsible for severe resonances. The factors chosen for study are the heaviness of the load, small damping, and disturbances. The method is promising for the analysis of general multimode resonances.

Original language	English
Pages (from-to)	1057-1064
Number of pages	8
Journal	IEEE Transactions on Power Systems
Volume	4
Issue number	3
DOIs	https://doi.org/10.1109/59.32599
Publication status	Published - 1989 Aug

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1109/59.32599

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abstract = "The envelope equation derived earlier is generalized to analyze a resonance among multiple modes by using the method of multiple scales, an excellent method for analyzing large-scale nonlinear systems. It is demonstrated through numerical simulations that the generalized envelope equation is valid for predicting the resonance phenomena themselves and also for examining the critical factors responsible for severe resonances. The factors chosen for study are the heaviness of the load, small damping, and disturbances. The method is promising for the analysis of general multimode resonances.",

author = "N. Yorino and H. Sasaki and Y. Tamura and R. Yokoyama",

year = "1989",

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N2 - The envelope equation derived earlier is generalized to analyze a resonance among multiple modes by using the method of multiple scales, an excellent method for analyzing large-scale nonlinear systems. It is demonstrated through numerical simulations that the generalized envelope equation is valid for predicting the resonance phenomena themselves and also for examining the critical factors responsible for severe resonances. The factors chosen for study are the heaviness of the load, small damping, and disturbances. The method is promising for the analysis of general multimode resonances.

AB - The envelope equation derived earlier is generalized to analyze a resonance among multiple modes by using the method of multiple scales, an excellent method for analyzing large-scale nonlinear systems. It is demonstrated through numerical simulations that the generalized envelope equation is valid for predicting the resonance phenomena themselves and also for examining the critical factors responsible for severe resonances. The factors chosen for study are the heaviness of the load, small damping, and disturbances. The method is promising for the analysis of general multimode resonances.

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Generalized analysis method of auto-parametric resonances in power systems

Abstract

ASJC Scopus subject areas

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