Fundamental insulation characteristics of high-pressure CO&lt;sub&gt;2&lt;/sub&gt; gas for gas-insulated power equipment - effect of coating conductor on insulation performance and effect of decomposition products on creeping insulation of spacer -

Goshima, Hisashi; Okabe, Shigemitsu; Ueda, Takeshi; Morii, Hiroshi; Yamachi, Nobuhiko; Takahata, K.; Hikita, Masayuki

doi:10.1109/tdei.2008.4591223

Cited by 27 publications

(8 citation statements)

References 5 publications

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“…This study [38] also suggested that the dew point of moisture in SF 6 gas was less than -10 °C for the surface insulation performance and that the maintenance level of moisture decreased with gas pressure. Moreover, the insulation resistance of a spacer decreased because of the absorption of moisture in air [39]. These results suggest that the candidate gases require a low moisture content to ensure the surface insulation performance and to preserve the insulation resistance of a spacer.…”

Section: Insulation Reliabilitymentioning

confidence: 94%

“…Nitta et al [38] and Goshima et al [39] presented the aforementioned mechanism on the degradation of surface insulation performance and the decreasing insulation resistance of a spacer because of moisture in the insulation gas respectively. However, this mechanism was investigated on the flashover characteristics on moisture content and temperature variations in SF 6 .…”

Section: Insulation Reliabilitymentioning

confidence: 99%

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Study on oxygen/nitrogen gas mixtures for the surface insulation performance in gas insulated switchgear

Lim

Bae

2015

IEEE Trans. Dielect. Electr. Insul.

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This paper presents a comparative study on SF 6 alternative candidate gases for the surface insulation performance of eco-friendly Gas Insulated Switchers (GIS) and Solid Insulated Switchers (SIS). The candidate gases including N 2 /O 2 mixture gas, dry air, and compressed air were proposed based on AC surface flashover experiment. These gases were compared and examined based on their surface insulation performance, pressure and gap dependence, surface insulation reliability in different temperatures, economic feasibility and easiness of manufacture. The comparison results verified that dry air had excellent properties on the comparison criteria and was the most suitable eco gas among the candidate gases for eco-friendly GIS and SIS. In addition to the comparative study on the candidate gases, their surface flashover characteristics were described in detail based on the effect of moisture contained in the candidate gases on flashover voltage and the correlation among electric field intensity, collision-ionization coefficient, electron attachment coefficient, and gap length.

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Section: Insulation Reliabilitymentioning

confidence: 94%

Section: Insulation Reliabilitymentioning

confidence: 99%

Study on oxygen/nitrogen gas mixtures for the surface insulation performance in gas insulated switchgear

Lim

Bae

2015

IEEE Trans. Dielect. Electr. Insul.

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“…In addition to selecting the insulating gas, engineering techniques can be applied to an insulation design method, and these techniques should be integrated into high-voltage apparatus with a selection method of insulating gas that considers the electron swarm parameters. The engineering techniques are improvements in electrodes and solid dielectrics, details of which can be found in references [11,[32][33][34][35][36]. The theoretical principles governing the engineering techniques are the suppression of electron generation and relaxation of the concentrated electric field.…”

Section: Insulation Design Methods Of An Insulating Gas Alternative Tomentioning

confidence: 99%

“…Their dielectric strength and characteristics have been compared with those of SF 6 [9]. In addition to gas insulation, composite insulation has been applied to SF 6 -free gas-insulated switchgear (GIS), instead of simple dielectric insulations by vacuum, gases, or solid dielectrics [10,11]. Composite insulation is a method of using a solid dielectric and an insulating gas together.…”

Section: Introductionmentioning

confidence: 99%

Surface Discharge Mechanism on Epoxy Resin in Electronegative Gases and Its Application

Park

Lim²,

Bae

2020

Applied Sciences

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This study presents the surface discharge characteristics of insulating gases, including sulfur hexafluoride (SF6), dry air, and N2, under a non-uniform field. Surface discharge experiments were conducted, with the gas pressure ranging from 0.1 to 0.6 MPa, on samples of epoxy dielectrics under an AC voltage. The experimental results showed that the surface insulation performance significantly improved in insulating gases possessing electronegative gases, such as SF6 and dry air. Surface flashover voltages of SF6 were saturated with an increasing pressure, compared to dry air and N2. The surface discharge mechanism is proposed to explain the improvement and saturation of dielectric characteristics of the electronegative gas in complex dielectric insulations, as well as its influence on the surface flashover voltage. As an application, an insulation design method is discussed with regards to replacing SF6 gas in high-voltage power equipment based on the knowledge of the physics behind gas discharge.

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“…The SF 6 alternative gases consist of conventional gases (N 2 , CO 2 , air, etc.) [7]- [9], CF 3 I gas [10], PFC gases (c-C 4 F 8 , etc.) [11], perfluoroketone gases (C 5 F 10 O) [12], perfluoronitrile gases (C 4 F 7 N) [13], refrigerant gases (HFO-1234ze and R-134a) [14], [15], and so on [16], [17].…”

Section: Introductionmentioning

confidence: 99%

Dielectric Properties of HFC-227ea (Heptafluor-Opropane) and its Mixtures With HFC-125 (Pen-Tafluoroethane) as a Substitute for SF₆

et al. 2019

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Due to the greenhouse effect of SF 6 , the research on alternative insulation gases is currently a hot topic in high voltage engineering. The refrigerant gas such as HFC-227ea with low GWP has stable chemical properties, and high dielectric strength because of a large number of fluorine atoms. However, it is necessary to add buffer gases for relatively high liquefaction temperature(−16.7 • C) of HFC-227ea. In this article, the dielectric strengths of HFC-227ea and its gas mixtures under different gas pressure, mixture composition and ratio are investigated under DC and AC electric fields. At atmospheric pressure, the results show that the breakdown voltage of HFC-227ea mixed with N 2 or CO 2 could only account for 60% of SF 6 gas. When HFC-227ea is mixed with HFC-125, which has similar chemical composition and structure, their dielectric strength can reach at least 80% of SF 6 gas and the gas mixture shows good synergistic effect. At higher gas pressure, the HFC-227ea/HFC-125 gas mixture at pressure of 0.8 MPa and low HFC-227ea content has the best insulating performance and it is suitable for a lower operating temperature, demonstrating the potential of substituting SF 6 for gas insulated electrical equipment. INDEX TERMS SF 6 alternatives, HFC-227ea, HFC-125, gas mixture, dielectric breakdown.

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Fundamental insulation characteristics of high-pressure CO<sub>2</sub> gas for gas-insulated power equipment - effect of coating conductor on insulation performance and effect of decomposition products on creeping insulation of spacer -

Cited by 27 publications

References 5 publications

Study on oxygen/nitrogen gas mixtures for the surface insulation performance in gas insulated switchgear

Study on oxygen/nitrogen gas mixtures for the surface insulation performance in gas insulated switchgear

Surface Discharge Mechanism on Epoxy Resin in Electronegative Gases and Its Application

Dielectric Properties of HFC-227ea (Heptafluor-Opropane) and its Mixtures With HFC-125 (Pen-Tafluoroethane) as a Substitute for SF₆

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Fundamental insulation characteristics of high-pressure CO<sub>2</sub> gas for gas-insulated power equipment - effect of coating conductor on insulation performance and effect of decomposition products on creeping insulation of spacer -

Cited by 27 publications

References 5 publications

Study on oxygen/nitrogen gas mixtures for the surface insulation performance in gas insulated switchgear

Study on oxygen/nitrogen gas mixtures for the surface insulation performance in gas insulated switchgear

Surface Discharge Mechanism on Epoxy Resin in Electronegative Gases and Its Application

Dielectric Properties of HFC-227ea (Heptafluor-Opropane) and its Mixtures With HFC-125 (Pen-Tafluoroethane) as a Substitute for SF6

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Product

Resources

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Dielectric Properties of HFC-227ea (Heptafluor-Opropane) and its Mixtures With HFC-125 (Pen-Tafluoroethane) as a Substitute for SF₆