• Title/Summary/Keyword: 22kV Power Cable

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Economic analysis of a 22.9 kV HTS power cable and conventional AC power cable for an offshore wind farm connections

  • Jung, Ga-Eun;Dinh, Minh-Chau;Sung, Hae-Jin;Park, Minwon;Yu, In-Keun
    • Progress in Superconductivity and Cryogenics
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    • v.20 no.4
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    • pp.60-64
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    • 2018
  • As the offshore wind farms increase, interest in the efficient power system configuration of submarine cables is increasing. Currently, transmission system of the offshore wind farm uses almost AC system. High temperature superconducting (HTS) power cable of the high capacity has long been considered as an enabling technology for power transmission. The HTS cable is a feasible way to increase the transmission capacity of electric power and to provide a substantial reduction in transmission losses and a resultant effect of low CO2 emission. The HTS cable reduces its size and laying sectional area in comparison with a conventional XLPE or OF cable. This is an advantage to reduce its construction cost. In this paper, we discuss the economic feasibility of the 22.9 kV HTS power cable and the conventional AC power cables for an offshore wind farm connections. The 22.9 kV HTS power cable cost for the offshore wind farm connections was calculated based on the capital expenditure and operating expense. The economic feasibility of the HTS power cable and the AC power cables were compared for the offshore wind farm connections. In the case of the offshore wind farm with a capacity of 100 MW and a distance of 3 km to the coast, cost of the 22.9 kV HTS power cable for the offshore wind farm connections was higher than 22.9 kV AC power cable and lower than 70 kV AC power transmission cable.

Insulation Test for the 22.9 kV Class HTS Power Transmission Cable

  • J.W. Cho;Kim, H.J.;K.C. Seong;H.M. Jang;Kim, D.W.;Kim, S.H.
    • Progress in Superconductivity and Cryogenics
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    • v.5 no.3
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    • pp.48-51
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    • 2003
  • HTS power transmission cable is expected to transport large electric power with a compact size. We are developing a 3-core, 22.9 kV, 50 MVA class HTS power cable, and each core consists of a conductor and shield wound with Bi-2223 tapes, electrical insulation with laminated polypropylene paper (LPP) impregnated with liquid nitrogen. This paper describes the design and experimental results of the model cable for the 22.9 kV, 50 MVA class HTS power transmission cable. The model cable was used the SUS tapes instead of HTS tapes because of testing the electrical characteristics only. The model cable was 1.3 m long and electrical insulation thickness was 4.5 mm. The model cable was evaluated the partial discharge (PD), AC and Impulse withstand voltage in liquid nitrogen. The AC and Impulse withstands voltage and PD inception stress was satisfied with the standard of Korea Electric Power Corporation (KEPCO) in the test results. The 3-core 22.9 kV, 50 MVA class HTS power cable has been designed and manufactured based on these experimental results.

A Study on the Application of 22kV class Superconducting Cable in Utility Network (전력회사 계통에 22kV급 초전도 케이블 도입을 위한 적용 개소 고찰)

  • 김종율;윤재영;이승렬
    • Progress in Superconductivity and Cryogenics
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    • v.5 no.2
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    • pp.20-29
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    • 2003
  • As power systems grow more complex and power demands increase, the need of underground transmission system is increasing gradually. But it is very difficult and high in cost to construct new ducts and/or tunnels for power cables in metropolitan areas. HTS (High Temperature Superconducting) cable can carry very high current densities with strongly reduced conductor loss and allow high power transmission at reduced voltage. Therefore HTS cable can transfer more power to be moved in existing ducts, which means very large economical and environmental benefits. A development project for a 22kV class HTS cable is ongoing at a research centers, and the cable manufacturer in Korea. In this paper, we carried out investigation for application of 22kV class HTS cable in Korean utility networks. The results show that the HTS cable is applicable to replace IPB in pumping-up power plant, withdrawal line in distributed generation, withdrawal line in complex power plant, and conventional under ground cable. Finally, as the cost of HTS wire and refrigeration drops, the technical and economical potential of HTS cable is evaluated positively.

The Properties of Dielectric Breakdown and Thermal Stresses below 22.9[kV] Class XLPE Power Cable (22.9[kV]이하 XLPE 전력케이블의 열 충격 시험 및 절연파괴 특성)

  • Kim, Young-Seok;Shong, Kil-Mok;Kim, Sun-Gu
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.22 no.4
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    • pp.54-60
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    • 2008
  • It is impossible to database(DB) the patterns of power cable events and cause analysis of faulted cable because the product liability(PL) law have been enforced in Korea, since 2002. In additions, simulation and pattern of power cable events are needed for DB system under accelerated deterioration. In this paper, we tested for resistance to cracking of cable below the 22.9[kV] class due to thermal stresses. This method of exam is following IEC 60811-3-1(Common test methods for insulating and sheathing materials of electric cables). From the results, The 22.9[kV] class A power cable was discolored on the surface and significantly reduced in the longitudinal direction. As the thermal weight properties of A power cable was definitely varied, we are able to guess the problem of manufacture. If the cable was defect by the manufacture, the victims would be able to claim for damage in the PL system.

A Prospect of the Future Power System Configuration with 22kV Class Superconducting Cable (22kV급 초전도 케이블을 이용한 미래 전력계통 구성 방안 고찰)

  • Kim, Jong-Yul;Yoon, Jae-Young;Choi, Heung-Kwan
    • Proceedings of the KIEE Conference
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    • 2003.07a
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    • pp.406-408
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    • 2003
  • As power demand increases gradually, the call for underground transmission system increases. But it is very difficult and high in cost to construct new ducts and/or tunnels for power cables in metropolitan areas. HTS (High Temperature Superconducting) cable has the several useful characteristics such as increased power density. Therefore HTS cable can allow more power to be moved in existing ducts, which means very large economical and environmental benefits. In this paper, we investigate the status of korean power system and underground transmission system. Based on this, the feasibility study on applying 22kV class HTS cable to korean power system is carried out and then we propose the new power system configuration of metropolitan area with 22kV class HTS cable.

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Thermal and Mechanical Properties of Insulation Materials for Underground Power Cable (지중 전력케이블용 절연재료의 열적 특성 및 기계적 특성)

  • Lee, Kyoung-Yong;Lee, Kwan-Woo;Choi, Yong-Sung;Park, Dae-Hee
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2004.05b
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    • pp.138-141
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    • 2004
  • In this paper, we Investigated effects on impurities and water of semiconductive shield through a thermal, mechanical, and absorption experiment to estimate performance of insulating materials in power cable. Specimens had been prepared 22[kV], 154[kV] XLPE power cables and then were made of sheet form with XLPE and semiconductive shield with dimension of 0.4[mm] ~1.2[mm] of thickness from power cable. Heat capacity $({\Delta}H)$ and glass trasition temperature (Tg) of XLPE sheet were measured by DSC (Differential Scanning Calorimetry). We could know that thermal stabilities of 154[kV] are more excellent than 22[kV] from this experimental result. The strain of mechanical properties in 22[kV] and 154[kV] XLPE was 486[%], 507[%] and stress was 1.74$[kgf/mm^2]$, 1.80$[kgf/mm^2]$. The absorption contents of existing semiconductive shield were measured 710[ppm] to 1,090[ppm], and semiconductive shield of 22[kV] cable was measured 14,750[ppm] to 24,780[ppm]. We thermal and mechanical properties of 154[kV] could know more excellent than 22[kV] from this experimental result.

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A Study on Diagnosis of The Energized Status of 22.9kV Multigrounded Underground Power Cable (22.9kV 다중 접지 지중 전력 케이블의 가압 상태 진단에 관한 기초 연구)

  • Kim, Chang-Gyo;Hong, Jin-Su;Jeong, Yeong-Ho
    • The Transactions of the Korean Institute of Electrical Engineers C
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    • v.48 no.10
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    • pp.699-703
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    • 1999
  • An experimental study to identify the energized status of the 22.9kV underground power cable by the detection of vibration has been performed. We have derived that there exists vibration at double the line frequency in live cables by electromagnetic force. The relative amplitudes of the cable vibration according to the energized status of the cable were calculated by computer simulation. The cable vibration can also be picked up by accelerometer. A prototype was tested on the underground distribution system in Chonan substation, KEPCO. Comparison between simulation results and field test results was performed. The results showed that the energized status of the calble can be identified by measuring the vibration of the cable using accelerometer.

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A Study of Properties Eddy Current Sensor for 22.9kv Distribution Insulation Cable (22.9kV 배전선로 절연전선 검출용 와류탐상 센서 특성 연구)

  • Oh, Yong-Cheul;Kim, Tag-Yong;Lee, Kyeong-Seob;Jeong, Han-Seok;Yoo, Jae-Sik;Yang, Jung-Kwon;Lee, Jae-Bong;Lee, Keon-Hang;Kim, Chong-Hyun
    • Proceedings of the KIEE Conference
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    • 2009.07a
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    • pp.2140_2141
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    • 2009
  • We used the eddy current sensor for a 22.9kV distribution power line insulation cable diagnosis. The insulation cable which is used in the 22.9kV distribution power line is having element wire from 6 to 18. Consequently, currently to ECT applications it has a limit in the distribution power line. We about under producing to apply in pick-up coil forms and the differential total coil form where becomes sum of zero in order to have. From measurement result, partial broken cable was confirmed 500 mV~980 mV changes from normal state.

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Power System Applications for 22kV Class Superconducting Cables in Korea (22kV급 초전도 케이블의 계통도입을 위한 구체적 적용대상 검토)

  • Kim, Jong-Yul;Yoon, Jae-Young;Choi, Heung-Kwan
    • Proceedings of the KIEE Conference
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    • 2003.07a
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    • pp.409-411
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    • 2003
  • As power demand increases gradually, the call for underground transmission system increases. But it is very difficult and high in cost to construct new ducts and/or tunnels for power cables in metropolitan areas. HTS (High Temperature Superconducting) cable has the several useful characteristics such as increased power density. Therefore HTS cable can allow more power to be moved in existing ducts, which means very large economical and environmental benefits. In this paper, we carried out investigation for Application of 22kV class HTS cable in Korean utility networks. The results show that the HTS cable is applicable to replace IPB in pumping-up power plant, withdrawal line in distributed generation, withdrawal line in complex power plant, and conventional under ground cable. Finally, as the cost of HTS wire and refrigeration drops, the technical and economical potential of HTS cable is evaluated positively.

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A Study on the DC Critical Current Test Method for 22.9kV/50MV A Superconducting Power Cable Considering the Uncertainty (불확도를 고려한 22.9kV, 50MVA급 초전도 전력케이블의 직류 임계전류 측정방법에 관한 연구)

  • Choi, S.J.;Lee, S.J.;Sim, K.D.;Cho, J.W.;Lee, S.K.;Yang, B.M.;Ko, T.K.
    • Progress in Superconductivity and Cryogenics
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    • v.11 no.3
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    • pp.46-49
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    • 2009
  • A 3-phase 100m long, 22.9kV class HTS power transmission cable system was developed by Korea Electrotechnology Research Institute (KERI) and LS cable Ltd. those are participated in the 21st Century Frontier project R&D Program of Korea. It is important to test the DC critical current related with its power capacity before applying to the real power grid. In 1995, several international standards organizations including International Electrotechnical Commission (IEC), decided to unify the use of statistical terms related with 'accuracy' or 'precision' in their standards. It was decided to use the word 'uncertainty' for all quantitative (associated with a number) statistical expressions. In this paper, we measured DC critical current of 22.9kV/50MVA superconducting power cable with several voltage tap and analyzed the uncertainty with these results.