• Title/Summary/Keyword: Cryogenic insulation

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A Study on the Electrical and Mechanical Properties of Conduction Cooling HTS SMES

  • Choi, Jae-Hyeong;Choi, Jin-Wook;Shin, H.S.;Kim, H.J.;Seong, K.C.;Kim, S.H.
    • Progress in Superconductivity and Cryogenics
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    • v.11 no.2
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    • pp.29-32
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    • 2009
  • The conduction cooling HTS SMES magnet is operated in cryogenic temperature. The insulation design at cryogenic temperature is an important element that should be established to accomplish miniaturization that is a big advantage of HTS SMES. However, the behaviors of insulators for cryogenic conditions in air or vacuum are virtually unknown. Therefore, we need active research and development of insulation concerning application of the conduction cooling HTS SMES. Specially, this paper was studied about high vacuum and cryogenic temperature breakdown and flashover discharge characteristics between cryocooler and magnet-coil. The breakdown and surface flashover discharge characteristics were experimented at cryogenic temperature and vacuum. Also, we were experimented about mechanical properties of 4-point bending test. From the results, we confirmed that about research between cryocooler and magnet-coil established basic data in the insulation design.

The Insulation Design of HTS Transformer and Bushing (고온초전도 변압기 및 부싱의 절연설계)

  • Cheon, H.G.;Choi, J.H.;Pang, M.S.;Kim, S.H.
    • Progress in Superconductivity and Cryogenics
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    • v.12 no.3
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    • pp.12-15
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    • 2010
  • Important key technologies of high-$T_c$ superconducting (HTS) transformer may include the HTS wire technology, bushing technology, cooling technology, AC loss, reduction technology, large current technology, and cryogenic temperature insulation technology. From among others, the cryogenic temperature insulation technology may be specifically a core technology for ensuring reliability for the smaller size, stability, economic efficiency, and power supply of a transformer. Therefore, the electric insulation technology of a superconducting transformer should be prerequisite. Such relevant studies are ongoing, but still, they are very insufficient for establishing the cryogenic insulation technology as of yet. Therefore, this paper simulated HTS transformer applied with continuous transposed conductor (CTC), which has been studied as a way of reducing AC loss. Also, the paper analyzed the insulation configuration of HTS transformer and bushing, and, accordingly, reviewed various characteristics of insulation breakdown out of liquid nitrogen. Thus, the paper constituted insulation database, and it is going to design the insulation of a transmission class HTS transformer and bushing.

The Basic Insulation Design of 60 kV Bushing for Netural Line of 154 kV Class HTS Transformer (154 kV급 고온초전도 변압기의 중성선용 60 kV 부싱의 기초 절연설계)

  • Choi, Jae-Hyeong;Choi, Jin-Wook;Kim, Sang-Hyun
    • Progress in Superconductivity and Cryogenics
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    • v.10 no.3
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    • pp.32-35
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    • 2008
  • A common problem in many fields of cryogenic power engineering is applying high voltage to cold parts of superconducting apparatus. In many cases, a bushing provides electrical insulation for the conductor which makes the transition from ambient temperature to the cold environment. The 60 kV class cryogenic high voltage bushing for neutral line of the 154 kV / 100MVA high temperature superconducting (HTS) transformer was described. The bushing is energized with the line-to-ground voltage between the coaxial center and outer surrounding conductors; in the axial direction, there was a temperature difference from ambient to about 77 K. For the insulation design of cryogenic bushing, electrical insulation characteristics of the GFRP were discussed in this paper.

A Study on the Electrical and Mechanical Properties of AlN for Insulation of a Conduction-Cooled HTS SMES (전도냉각 고온초전도 SMES 절연용 AlN의 전기적 및 기계적 특성 연구)

  • Choi, J.H.;Kwag, D.S.;Cheon, H.G.;Min, C.H.;Kim, H.J.;Jung, S.Y.;Kim, S.H.
    • Proceedings of the KIEE Conference
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    • 2007.07a
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    • pp.957-958
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    • 2007
  • The conduction-cooled HTS SMES magnet is operated in cryogenic temperature. The insulation design at cryogenic temperature is an important element that should be established to accomplish miniaturization that is a big advantage of HTS SMES. However, the behaviors of insulators for cryogenic conditions in air or vacuum are virtually unknown. Therefore, we need active research and development of insulation concerning application of the conduction-cooled HTS SMES. Specially, this paper was studied about high vacuum and cryogenic temperature breakdown and flashover discharge characteristics between cryocooler and magnet-coil. The breakdown and surface flashover discharge characteristics were experimented at cryogenic temperature and vacuum. Also, we were experimented about mechanical properties of 4-point bending test. From the results, we confirmed that about research between cryocooler and magnet-coil established basic data in the insulation design.

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A Study on the Electrical Properties for the Insulation Design of a Conduction-Cooled HTS SMES (전도냉각 HTS SMES 절연설계를 위한 전기적 특성연구)

  • Choi, Jae-Hyeong;Kwag, Dong-Soon;Cheon, Hyeon-Gweon;Baek, Seung-Myeong;Kim, Hae-Jong;Seong, Ki-Chul;Kim, Sang-Hyun
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2006.06a
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    • pp.226-227
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    • 2006
  • The conduction-cooled HTS SMES is operated in cryogenic and high vacuum condition. Thus, Insulation design at cryogenic temperature and high vacuum is a key and an important element that should be established to accomplish miniaturization that is a big advantage of HTS SMES. Therefore, we need active research and development of insulation concerning application of the conduction-cooled HTS SMES. Therefore, in this study, we experimented about insulation characteristic high vacuum and cryogenic similar to driving condition of SMES system. Also, investigated about insulation characteristic of suitable some materials to insulator for conduction-cooled HTS SMES. As this results, we possessed basis data for insulation materials selection and insulation design for development of 600 kJ class conduction-cooled HTS SMES.

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Weldment Design of Supports for Cryogenic Storage Tank considering Insulation (단열을 고려한 초저온 액체질소 저장 탱크의 지지대 용접부 설계)

  • Choi, Dong-Jun;Oh, Jung-Taek;Jung, Jae-Hyun;Cho, Jong-Rae
    • Journal of Advanced Marine Engineering and Technology
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    • v.32 no.1
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    • pp.131-136
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    • 2008
  • The double-walled steel vessel with powder insulation in the space between the walls is used to minimize heat transfer by radiation and conduction in cryogenic storage tank. The vacuum required the insulation is much less extreme than with high-vacuum or multilayer insulations. The solid supports are used to bear the weight of the inner container. Thermal and structural analysis of the tank have been carried out to study the effect of vacuum and weldment geometry of the internal supports. Heat flux in wall is increased with increasing of thermal conductivity of perlite. Heat flux and stress of support is not affected by weldment geometry.

An Investigation on Surface Flashover Characteristics of FRP in Several Insulation Gases for the Spacer of Cryogenic Bushing

  • Hwang, Jae-Sang;Shin, Woo-Ju;Seong, Jae-Kyu;Lee, Jong-Geon;Lee, Bang-Wook
    • Progress in Superconductivity and Cryogenics
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    • v.14 no.4
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    • pp.20-23
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    • 2012
  • Superconducting equipment has been actively investigated for securing the environment and energy technology (ET) in various parts of the world. Despite these movements, a high voltage cryogenic bushing, which plays an important role of interconnection between the electric power systems and superconducting devices, has not been fully developed due to severe insulation requirements. A gas insulated cryogenic bushing has been investigated as one of our projects since 2010. As a basic step to obtain the design parameters for cryogenic bushing, we focused on the surface flashover characteristics of glass fiber reinforced plastic (FRP) in several insulation gases. For the surface flashover tests, several insulation gases including $SF_6$, $CF_4$ and $N_2$ gas were prepared. Various length of FRP specimens were fabricated in order to obtain the fundamental data for creepage distance of FRP. The first specimen group was from 2 mm to 10 mm with 2 mm intervals and the second specimen group was from 20 mm to 100 mm with 20 mm intervals. And the gas pressure was varied from 1 bar to 4 bar. An AC overvoltage test and a lightning impulse test were performed. Then the experimental results of surface flashover were obtained and analyzed. Based on these results, it would be possible to design the optimum creepage distance of FRP in a cryogenic bushing.

Investigation of the Cryogenic Performance of the High Density Polyurethane Foam (고밀도 폴리우레탄 폼의 극저온 성능 분석)

  • Jeong-Hyeon Kim;Jeong-Dae Kim;Tae-Wook Kim;Seul-Kee Kim;Jae-Myung Lee
    • Journal of the Korean Society of Industry Convergence
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    • v.26 no.6_3
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    • pp.1289-1295
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    • 2023
  • Polyurethane foam insulation required for storing and transporting cryogenic liquefied gas is already widely used as a thermal insulation material for commercial LNG carriers and onshore due to its stable price and high insulation performance. These polyurethane foams are reported to have different mechanical performance depending on the density, and the density parameter is determined depending on the amount of the blowing agent. In this study, density-dependent polyurethane foam was fabricated by adjusting the amount of blowing agent. The mechanical properties of polyurethane foam were analyzed in the room temperature and cryogenic temperature range of -163℃ at 1.5 mm/min, which is a quasi-static load range, and the cells were observed through microstructure analysis. The characteristics of linear elasticity, plateau, and densification, which are quasi-static mechanical behaviors of polyurethane foam, were shown, and the correlation between density and mechanical properties in a cryogenic environment was confirmed. The correlation between mechanical behavior and cell size was also analyzed through SEM morphology analysis. Polyurethane foam with a density of 180 kg/m3 had a density about twice as high as that of a polyurethane foam with a density of 96 kg/m3, but yield strength was about 51% higher and cell size was about 9.5% smaller.

Research on Insulation Design of the Bushing for a 154kV Class HTS Transformer (154kV급 고온초전도 변압기용 부싱의 절연설계에 관한 연구)

  • Kwag, D.S.;Cheon, H.G.;Choi, J.H.;Kim, H.J.;Yun, M.S.;Kim, Y.S.;Kim, S.H.
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2006.06a
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    • pp.216-217
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    • 2006
  • A common problem in many fields of cryogenic power engineering is to apply high voltage to cold parts of superconducting equipment. In many of these cases a bushing provides electrical insulation for the conductor which makes the transition from ambient temperature to the cold environment. The cryogenic high voltage bushing for the 154kV, 100MVA high temperature superconducting(HTS) transformer is described. The bushing is energized with the line-to-ground voltage between the coaxial center and outer surrounding conductors, in the axial direction there is a temperature difference from ambient to about 77 K. For the insulation design of cryogenic bushing, the arrangement of condenser cone and electrical insulation characteristics of GFRP, Air, $LN_2$ and $GN_2$ were discussed in this paper.

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