• Title/Summary/Keyword: SF6 가스차단기

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Analysis of arc characteristics of EHV class GCB using hybrid arc model (하이브리드 아크모델을 이용한 초고압 가스차단기의 아크특성 해석)

  • Park, K.Y.;Song, K.D.;Shin, Y.J.;Chang, K.C.;Song, W.P.;Kwon, K.Y.
    • Proceedings of the KIEE Conference
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    • 1997.07a
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    • pp.94-96
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    • 1997
  • A mathematical model (hybrid arc model) for arc behaviour in an $SF_6$ puffer gas-blast circuit-breaker has been developed. It has adopted the advantages of integral method and differential method. The method has been applied to model puffer circuit breaker of Noeske et al and good agreement of critical RRRV(Ratio of Rise of Recovery Voltage) has been obtained. Axial or radial distributions of temperature, electric field and arc radius are also presented and analyzed.

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Performance Evaluation of a $SF_6$ Gas Circuit Breaker with Experimental Investigation (초고압 $SF_6$ 가스 차단기의 실험적 차단성능 평가)

  • Jeong, Y.W.;Park, H.T.;Oh, I.S.
    • Proceedings of the KIEE Conference
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    • 2005.11a
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    • pp.96-99
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    • 2005
  • In this study, we build system and techniques of evaluating the interruption performance of the GCB with experimental method. We constructed a simplified synthetic test circuit of which ability is up to 245kV, 50kA BTF test. And We composed a model test circuit breaker with puffer assisted self blasting type GCB. With this circuit breaker, we carried out the experiment of no load and SLF90. During the tests, we measured the several factors such as stroke, pressure, arc temperature, the voltage and current near the current zero and dI/dt, dV/dt. Arc conductivity before 200ns before current zero which is one of the indexes of the thermal recovery of a GCB was measured. With these kinds of measurement, we could estimate the performance of a GCB fundamentally. Futhermore these results were used to adjust the arc modeling with CFD(computational fluid dynamics) and we could increase the plausibility of the analytical method.

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Analysis Of Dielectric Recovery Characteristics for $SF_6$ Gas-Blast AFC ($SF_6$아크의 절연회복특성 해석)

  • Song, Gi-Dong;Lee, Byeong-Yun;Park, Gyeong-Yeop;Park, Jeong-Hu
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.51 no.6
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    • pp.273-284
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    • 2002
  • In this paper, computer simulations of the physical Phenomena occurring in the arc region before and after current zero were carried out to evaluate the dielectric recovery characteristics of two types of double-flow nozzles. A commercial CFD Program "PHOENICS" is used for the simulation and the user-coded subroutines to consider the arcing phenomena were added to this program by the authors. The computed results were verified by the comparison with the test results presented by the research group of BBC. In order to investigate the state of the arc region after current zero, the simulation was carried out with four steps. They are cold gas flow analysis, steady state arc simulation, transient arc simulation before current zero, transient hot gas flow simulation after current zero. The semi-experimental arc radiation model is adapted to consider the radiation energy transport and Prandtl′s mixing length model is employed as the turbulence model. The electric field and the magnetic field were calculated with the same grid structure used for the simulation of the flow field. The streamer criterion was introduced to evaluate the dielectric recovery characteristics after current zero. Compared with the results obtained by assuming the current zero state in the former studies, it has been found that the results obtained by considering the state before current zerowere more accurate.

Analysis of Thermal Recovery Characteristics for $SF^6$ Gas-Blast Arc within Laval Nozzle (Laval Nozzle에 대한 $SF^6$ 아크의 열적회복특성 해석)

  • Song, Gi-Dong;Lee, Byeong-Yun;Gyeong-Yeop;Park, Jeong-Hu
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.51 no.9
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    • pp.522-529
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    • 2002
  • In this paper, computer simulations of the physical Phenomena occurring in the arc region before and after current zero were carried out to evaluate the thermal recovery characteristics of a Laval nozzle. A commercial CFD program "PHOENICS" is used for the simulation and the user-coded subroutines to consider the arcing phenomena were added to this program by the authors. The computed results were verified by the comparison with the test results presented by the research group of GE Co.(General Electric Company). In order to investigate the state of the arc region after current zero, the simulation was carried out with three steps. They are steady state arc simulation, transient arc simulation before current zero, and transient hot-gas flow simulation after current zero. The semi-experimental arc radiation model is adapted to consider the radiation energy transport and Prandtl's mixing length model is employed as the turbulence model. The electric field and the magnetic field were calculated with the same grid structure used for the simulation of the flow field. The post-arc current was calculated to evaluate the thermal recovery characteristics after current zero. Compared with the results obtained by GE Co., it has been found that the critical RRRV(ratio of rise of recovery voltage) will be determined previously by this study.his study.

ABLATION OF PTFE NOZZLE DRIVEN BY ARC PLASMA (아크 플라즈마에 의한 PTFE 노즐 용삭현상)

  • Lee J.C.;Kim Y.J.
    • 한국전산유체공학회:학술대회논문집
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    • 2005.10a
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    • pp.311-317
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    • 2005
  • It has been the most progressive interruption technique to use the ablation gas from the surface of PTFE nozzle driven by arc plasma during switching process in $SF_6$ gas circuit breakers. This advanced interruption technique can reduce the required mechanical energy to compress and blow the gas for extinguishing the arc plasma between the electrodes due to using the ablation effect instead. In order to consider the phenomena during calculation of switching process, it is required to confirm the principles of ablation from PTFE nozzle as well as of arc plasma during switching process. In this study, we have calculated the switching process considered the ablation of PTFE nozzle driven by arc plasma using multidisciplinary simulation technique and compared the results with the data without the ablation effect. More $50\%$ difference of pressure rise inside expansion chamber has been found from the results and it should be indispensable for this type of computational work to consider and include the ablation effect of PTFE nozzle. Further study on turbulence and radiation will be followed.

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