[논문]DC Arc Extinction Using External Magnetic Field in Switching Device

Cho Hyun-Kil; Lee Eun-Woong; Jeong Jong-Ho

DC Arc Extinction Using External Magnetic Field in Switching Device 원문보기

KIEE international transactions on electrical machinery and energy conversion systems, v.5B no.4, 2005년, pp.306 - 311

Cho Hyun-Kil (Magnetic Switch Design Team of LS Industrial System Co., Ltd.) , Lee Eun-Woong (Dept. of Electrical and Electronic Engineering, Chungnam National University) , Jeong Jong-Ho (Dept. of Electrical and Electronic Engineering, Chungnam National University)

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In this paper, the electromagnetic force acting in the arc column of 3 different extinction units is compared with using the FEM (Finite Element Method) and the arc velocity is calculated by the drag force of the fluid mechanics. The experiment for breaking the arc current was performed in each model at 100 volts in order to measure the arcing time. The outcome was compared with the computing value. As a result, this paper proposes that the divided U-shaped grid is able to shorten arcing time and improve the electric performance. It also suggests a methodology for comparing and analyzing the result obtained by simulation and experiment.

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Types of arc extinction units have been made and results of the breaking tests were compared with simulating values The electromagnetic force is the dominant component for shortening the arcing time. As such, this paper proposes that the divided U-shaped grid is able to shorten arcing time and improve the electric performance. In addition, this suggests a methodology for comparing and analyzing the results obtained by simulation and experiment
Therefore, this paper makes reference to the improvement of performance of arc extinction in air and suggests a new interrupting method in DC circuits. The electromagnetic force acting on the arc column of 3 different arc extinction units is compared with using the FEM (Finite Element Method) and the arc velocity is calculated by the drag force of the fluid mechanics.
The high velocity contributes to quick cooling of the arc column by the surrounding gas. Therefore, this paper suggests that increasing the flux density of crossing the arc current shortens the arcing time.

참고문헌 (13)

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Teijiro Mori and Kenichi Koyama, 'A new interruption method for low-voltage small-capacity, air-break contactor,' IEEE Industry Application, Vol. 27. No.1, pp. 161-165,1991

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Z. Kolacinsk, et al., 'Spiral arc quenching,' IEEE Trans. Power Delivery, Vol. 7, No.2, pp. 822-828, 1992

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John. Shea and Yun-ko Chien, 'Blow-open forces on double-break contacts,' IEEE Holm Conference, pp. 103-109,1993
Shokichiro Ito and Yoshiaki Takato, 'Numerical analysis of electromagnetic forces in low voltage circuit breakers using 3-D finite element method into account eddy currents,' IEEE Transaction on Magnetics, Vol. 34, No.5, pp. 2597-2600, 1998

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K. Pechrach et al, 'The correlation of magnetic, gas dynamic and thermal effects on ac mobility in low contact velocity circuit breakers,' IEEE Holm Conference, pp. 86-94, 2002
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Mesut and Nikhil R Mahajan, 'DC distribution for industrial systems: Opportunities and challenges,' IEEE/PES, Vol. 1. pp. 38-74, 2002
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DC Arc Extinction Using External Magnetic Field in Switching Device 원문보기

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