• Title/Summary/Keyword: quench & recovery characteristics

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Quench and recovery characteristics of HTS film after fault current (과도전류 후의 고온초전도체 박막의 퀜치/회복 특성)

  • 박을주;김진석;설승윤
    • Progress in Superconductivity and Cryogenics
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    • v.5 no.2
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    • pp.16-19
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    • 2003
  • Quench and recovery process of high-temperature-superconductor (HTS) film deposited on the sapphire substrate is studied numerically. The quench is developed by fault current and the superconductivity is recovered by convection of heat into coolant. After the fault current. the HTS film experiences the quench state. current sharing state. and finally recovers the superconductivity. Numerical results of this study are compared to the previous experimental results. and shows that this numerical work can explain the mechanism of quench/recovery characteristics of HTS film.

Quench and recovery characteristics of HTS film after fault current (고온초전도체 박막의 퀜치/회복 특성)

  • 설승윤;김진석;박을주
    • Proceedings of the Korea Institute of Applied Superconductivity and Cryogenics Conference
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    • 2003.10a
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    • pp.181-184
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    • 2003
  • Quench and recovery process of high-temperature -superconductor (HTS) film deposited on the sapphire substrate is studied numerically. The quench is developed by fault current and the superconductivity is recovered by convection of heat into coolant. After the fault current, the HTS film experiences the quench state, current sharing state, and finally recovers the superconductivity. Numerical results of this study are compared to the previous experimental results, and shows that this numerical work can explain the mechanism of quench/recovery characteristics of HTS film.

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Quench and recovery characteristics of HTS film after fault current (과도전류 후의 고온초전도체 박막의 퀜치/회복 특성)

  • 김진석;박을주;설승윤
    • Proceedings of the Korea Institute of Applied Superconductivity and Cryogenics Conference
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    • 2003.02a
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    • pp.272-275
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    • 2003
  • Quench and recovery process of high-temperature-superconductor(HTS) film deposited on the sapphire substrate is studied numerically. The quench is developed by fault current and the superconductivity is recovered by convection of heat into coolant. After the fault current, the HTS film experiences the quench state, current sharing state, and finally recovers the superconductivity. Numerical results of this study are compared to the previous experimental results, and shows that this numerical work can explain the mechanism of quench/recovery characteristics of HTS film.

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Quench recovery characteristics of YBCO thin film type superconducting fault current limiter (YBCO 박막형 초전도 한류소자의 퀜치 회복 특성에 관한 연구)

  • Yim, Seong-Woo;Sim, Jung-Wook;Kim, Hye-Rim;Hyun, Ok-Bae;Kim, Ho-Min;Park, Kwon-Bae;Lee, Bang-Wook;Oh, Il-Sung
    • Proceedings of the KIEE Conference
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    • 2006.07b
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    • pp.711-712
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    • 2006
  • For the application of superconducting fault current limiters(SFCLs) to the protection system, quench recovery characteristics of Au/YBCO thin film were investigated. The Au/YBCO thin film was designed as a SFCL element with a bi-spiral pattern. The SFCL element limited the fault current successfully. For the analysis of the recovery to superconducting state, we measured resistance variation of the SFCL element after the quench. In addition, in order to investigate the dependence of quench characteristics of SFCL on the $LN_2$ cooling condition, we measured the recovery time under a pressure of 1, 2 and 3 atm. As the results, the recovery time increased in proportion to the duration of the fault currents. In the sub-cooled condition, while the quench development was exactly the same, the recovery time was shortened as the pressure increased.

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Quench/recovery test results of the YBCO coated conductors(CCs) having various stabilizer thicknesses (YBCO coated conductors(CCs)의 안정화재 두께 변화에 따른 quench/recovery 특성 분석에 관한 연구)

  • Kwon, N.Y.;Kim, H.S.;Kim, K.L.;Kim, K.J.;Yim, S.W.;Kim, H.R.;Hyun, O.B.;Lee, H.G.
    • Progress in Superconductivity and Cryogenics
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    • v.11 no.3
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    • pp.10-14
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    • 2009
  • Since a stabilizer of YBCO coated conductor (CC) plays a very important role of bypassing over-current and transferring heat generated in the moment of fault, it is one of big issues to determine the material of the stabilizer and its dimension for the high performance of the HTS power application system. Especially, in the case of a superconducting fault current limiter (SFCL), which requires it to react immediately to the occurrence of fault, characteristics of stabilizer are decisive in limiting fault current and recovering superconducting properties during and after quenching. In this paper, the quench / recovery characteristics of YBCO CCs with various thickness of stabilizer were analyzed. The quench/recovery test carried out at 20 $V_{rms}$, 5 cycles (60 Hz) and results showed that as the thickness of the stabilizer decreased, both the final approach temperature and the recovery time decreased.

Quench and Recovery Characteristics of Non-Inductively Wound HTS Coils with Various Winding (권선방식에 따른 무유도 권선형 HTS 코일의 퀜치 및 회복 비교특성)

  • Jo, Hyun-Chul;Chang, Ki-Sung;Kim, Young-Jae;Choi, Suk-Jin;Hwang, Young-Jin;Kim, Won-Cheol;Ko, Tae-Kuk
    • Progress in Superconductivity and Cryogenics
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    • v.12 no.1
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    • pp.37-41
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    • 2010
  • To limit fault current in a power system, superconducting fault current limiters (SFCLs) using high temperature superconducting (HTS) coils have been developed by many research groups so far. Non-inductive winding of HTS coils used for SFCLs can be classified into solenoid winding and pancake winding. Each of winding is expected to have different quench and recovery characteristics because the structure of solenoid winding differs from pancake winding's. Therefore it is important to the SFCLs application to investigate characteristics of each winding. In this paper, we deal with quench and recovery characteristics of four kinds of winding : solenoid winding, pancake winding without spacers, and with spacers of 2 and 4 mm thickness. In order to obtain quench and recovery parameters of coils, short circuit tests were performed in liquid nitrogen.

Stability of the Cable-in-Conduit Conductors (CIC 초전도 도체의 안정성)

  • 류경우
    • Electrical & Electronic Materials
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    • v.10 no.9
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    • pp.895-900
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    • 1997
  • A Quench in cable-in-conduit (CIC) conductors is often initiated by a disturbance such as strand motion that generates a highly localized normal zone in a strand or a few strands of the CIC conductors. The localized normal zone causes current and heat transfer between a disturbed strand and neighboring strands. Electrical and thermal contact characteristics between strands thus have an effect on the transient stability of the CIC conductors. In this paper the effect of contact characteristics between strands on the CIC conductor stability is presented based on the measured heat transfer characteristics of supercritical helium (SHe) for the local heating. The quench and recovery processes of the strands for the abrupt and highly localized disturbance are analyzed at the boundary between quench and recovery.

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Fabrication and Test of a Superconducting Coil for SMES (SMES용 초전도코일 제작 및 특성)

  • 김해종;성기철;조전욱;배준한;김석환;심기덕;이언용;권영길;류경우
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.52 no.11
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    • pp.557-562
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    • 2003
  • To develop a stable and compact small-sized superconducting magnetic energy storage (SMES) system, which provides electric power with high quality to sensitive electric loads, we fabricated a SMES coil and tested it. Because such a large-sized superconducting coil quenches far away from its critical current, the recovery current is frequently used as a stability criterion in the coil fabrication. Therefore, we first investigated the recovery current characteristics of the large current conductor, which was used in our SMES coil fabrication. The test results indicate that the recovery currents measured in the conductor are nearly identical to those based on the single wire. This implies that the recovery current is affected by the conductor's cooling condition rather than its size and current capacity. In the SMES coil test the first quench occurred at 1250 A, which is equivalent to the stored energy of about 2 MJ. It corresponds to the quench current density of about $130A/mm^2$ This value is much higher in comparison with that reported in the other work. In addition, the first quench current of the coil agrees well with the measured recovery current of the conductor having similar cooling condition with it. This means that to determine the recovery current of a conductor is, first of all, important in the design and fabrication of a large-sized superconducting coil.

Stability characteristics of DyBCO coated conductor stabilized with stainless steel

  • Dixit, Manglesh;Kim, Tae-Hyung;Oh, Sang-Soo;Song, Kyu-Jeong;Kim, Ho-Min;Park, Kwon-Bae
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2005.07a
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    • pp.288-289
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    • 2005
  • As high temperature superconductor applications became a reality due to increase in coated conductor performance, it is important to understand their stability behavior to design safe electrical power systems. We have experimentally studied the dependence of quench and recovery characteristics of coated conductors on the amplitude of current and duration time. The sample used in the present study is stabilized with stainless steel. Stability tests of 3 cm long sample were performed in a liquid nitrogen bath cooling condition by applying a short period over current pulses for 50 and 100 ms, with amplitude up to ~ 6 times of the critical current. The transport current that follows before and after the current pulse was fixed about ~85% the critical current. We analyzed the quench recovery using the current voltage characteristic.

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Quench characteristics of stainless steel laminated DyBCO coated conductor (스테인레스강 라미네이션된 DyBCO 초전도 선재의 퀜치 특성)

  • Dixit Manglesh;Kim Tae Hyung;Oh Sang Soo;Song Kyu Jeong;Kim Ho Min;Park Kwon Bae
    • Progress in Superconductivity and Cryogenics
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    • v.7 no.3
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    • pp.1-4
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    • 2005
  • As high temperature superconductor applications became a reality due to increase in coated conductor performance, it is important to understand their stability behavior to design safe electrical power systems. Coated conductors can be stabilized with different metals and alloys for different types of application, to yield excellent electrical, thermal and mechanical performance. We have experimentally studied the dependence of quench and recovery characteristics of stainless steel stabilized coated conductors on the amplitude of current and duration time. Stability test of 3cm long sample were performed in a liquid nitrogen bath cooling condition by applying a short period over current pulses for 50 and 100ms, with amplitude up to ~6 times the critical current. The transport current that flows before and after the current pulse was fixed at about ~80-85% critical current. We analyzed the quench and recovery phenomena of the test sample using the current voltage characteristic.