Experimental study on improvement of transient stability with braking resistor

Shinji Iida; Shunji Imamura; Goro Shirai; Goro Fujita

doi:10.1541/ieejpes.126.894

Experimental study on improvement of transient stability with braking resistor

Shinji Iida, Shunji Imamura, Goro Shirai, Goro Fujita

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

Abstract

The electric industry has undergone a considerable change in the past decade throughout the world. The feature change is to promote competition among utilities and to form active power market with reliable and less expensive electricity. Under these circumstances, stabilization and voltage stability problems of power system are very important. The power systems engineer is investigating the effect of the capacity of the braking resistor and the timing of insertion for the improvement of the stability level. In this paper, experiments are carried out the optimal size and switching of braking resistor and shunt capacitor etc. The studied system model for experiments consists of a single synchronous generator connected through two parallel transmission lines to an infinite bus.

Original language	English
Pages (from-to)	894-900
Number of pages	7
Journal	IEEJ Transactions on Power and Energy
Volume	126
Issue number	9
DOIs	https://doi.org/10.1541/ieejpes.126.894
Publication status	Published - 2006 Sep 18

Keywords

Braking resistor
Equal area criterion for stability
Single machine infinite bus
Transient stability

ASJC Scopus subject areas

Energy Engineering and Power Technology
Electrical and Electronic Engineering

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10.1541/ieejpes.126.894

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title = "Experimental study on improvement of transient stability with braking resistor",

abstract = "The electric industry has undergone a considerable change in the past decade throughout the world. The feature change is to promote competition among utilities and to form active power market with reliable and less expensive electricity. Under these circumstances, stabilization and voltage stability problems of power system are very important. The power systems engineer is investigating the effect of the capacity of the braking resistor and the timing of insertion for the improvement of the stability level. In this paper, experiments are carried out the optimal size and switching of braking resistor and shunt capacitor etc. The studied system model for experiments consists of a single synchronous generator connected through two parallel transmission lines to an infinite bus.",

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AU - Iida, Shinji

AU - Imamura, Shunji

AU - Shirai, Goro

AU - Fujita, Goro

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Y1 - 2006/9/18

N2 - The electric industry has undergone a considerable change in the past decade throughout the world. The feature change is to promote competition among utilities and to form active power market with reliable and less expensive electricity. Under these circumstances, stabilization and voltage stability problems of power system are very important. The power systems engineer is investigating the effect of the capacity of the braking resistor and the timing of insertion for the improvement of the stability level. In this paper, experiments are carried out the optimal size and switching of braking resistor and shunt capacitor etc. The studied system model for experiments consists of a single synchronous generator connected through two parallel transmission lines to an infinite bus.

AB - The electric industry has undergone a considerable change in the past decade throughout the world. The feature change is to promote competition among utilities and to form active power market with reliable and less expensive electricity. Under these circumstances, stabilization and voltage stability problems of power system are very important. The power systems engineer is investigating the effect of the capacity of the braking resistor and the timing of insertion for the improvement of the stability level. In this paper, experiments are carried out the optimal size and switching of braking resistor and shunt capacitor etc. The studied system model for experiments consists of a single synchronous generator connected through two parallel transmission lines to an infinite bus.

KW - Braking resistor

KW - Equal area criterion for stability

KW - Single machine infinite bus

KW - Transient stability

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Experimental study on improvement of transient stability with braking resistor

Abstract

Keywords

ASJC Scopus subject areas

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