• Title/Summary/Keyword: DC polarity reversal

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Study on the effect of DC voltage in oil-immersed transformer insulation system (DC 전압이 유입변압기 절연시스템에 미치는 영향에 관한 연구)

  • Jang, Hyo-Jae;Kim, Yong-Han;Seok, Bok-Yeol
    • Proceedings of the KIEE Conference
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    • 2011.07a
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    • pp.1552-1553
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    • 2011
  • The HVDC transformer which is one of the main equipments for HVDC(High Voltage Direct Current) electric power transmission systems is exposed to not only AC voltage but also the inflowing DC voltage which comes from the DC-AC converter systems. Therefore, the HVDC transformer insulation system is required to withstand the electric field stress under AC, DC and DC polarity reversal conditions. However the electric field distributions under those conditions are different because the AC electric field and DC electric field are governed by permittivity and conductivity, respectively. In this study, the changes of electric potential and electric field of conventional AC transformer insulation system under DC polarity reversal test condition were analyzed by FEM(Finite Element Method). The DC electric field stress was concentrated in the solid insulators while the AC electric field stress was concentrated in the mineral oil. In addition, the electric stress under that condition which is affected by the surface charge accumulation at the interfaces between insulators was evaluated. The stress in some parts could be higher than that of AC and DC condition, during polarity reversal test. The result of this study would be helpful for the HVDC transformer insulation system design.

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DC and Impulse Insulation Characteristics of PPLP for HTS DC Cable (고온초전도 직류 케이블용 절연재료인 PPLP의 직류 및 임펄스 절연 특성)

  • Kim, Woo-Jin;Pang, Man-Sik;Kim, Hae-Jong;Cho, Jeon-Wook;Kim, Sang-Hyun
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.26 no.7
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    • pp.545-549
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    • 2013
  • To realize the high-Tc superconducting (HTS) DC cable system, it is important to study not only high current capacity and low loss of conductor but also optimum electrical insulation at cryogenic temperature. A model HTS DC cable system consists of a HTS conductor, semi-conductor, cooling system and insulating materials. Polypropylene laminated paper (PPLP) has been widely adopted as insulating material for HTS machines. However, the fundamental insulation characteristics of PPLP for the development of HTS DC cable have not been revealed satisfactorily until now. In this paper, we will discuss mainly on the breakdown characteristics of 3 sheets PPLP in liquid nitrogen ($LN_2$). The characteristics of the diameter, location of butt-gap, distance between butt-gap length, pressure effect, polarity effect under DC and impulse voltage were studied. Also, the DC polarity reversal breakdown voltage of mini-model cable was measured in $LN_2$ under 0.4 MPa.

Consolidation of marine clay using electrical vertical drains

  • Shang, J.Q.;Tang, Q.H.;Xu, Y.Q.
    • Geomechanics and Engineering
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    • v.1 no.4
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    • pp.275-289
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    • 2009
  • Electroosmosis (EO) is the movement of water in a porous medium under the influence of a direct current (dc). In past decades, electro-osmosis has been successfully employed in many soil improvement and other geotechnical engineering projects. Metal electrodes, such as steel, copper and aluminum have been used traditionally to conduct current. The shortcoming of these electrodes is that they corrode easily during an EO treatment, which results in reduced effectiveness and environmental concerns. More recently, conductive polymers are developed to replace metal electrodes in EO treatment. Electrical vertical drainages (EVDs) are one of these products under trial. The goal of this study is to assess the performance of EVDs for soil improvement and to further understand the scientific principle of the EO process, including the voltage drop at the soil-EVD interface, electrical current density, polarity reversal, and changes in soil physico-chemical properties generated by electroosmosis. It is found from the study that after 19 days of EO treatment with a constant applied dc electric field intensity of 133 V/m, the soil's moisture content decreased by 28%, the shear strength and pre-consolidation pressure increased more than 400%. It is also found that the current density required triggering the water flow in the soil tested, the Korean Yulchon marine clay, is 0.7 $A/m^2$. The project demonstrates that EVDs can serve as both electrodes and drains for soil improvement in short term. However, the EVDs, as tested, are not suitable for polarity reversal in EO treatment and their service life is limited to only 15 days.

고압용 전선의 전기절연과 공간전하

  • 서광석;박진우
    • 전기의세계
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    • v.39 no.2
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    • pp.12-24
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    • 1990
  • 고분자는 전기장 내에 놓이게 되면 분극현상과 전하주입현상이 일어나며 절연체의 절연수명은 분극현상보다 전하주입에 의해 형성된 공간전하에 의하여 크게 좌우된다. 공간전하에 관한 연구에 있어서 공간전하의 정화한 측정 자체도 어려운 문제인 데, 최근에 개발된 방법인 압력펄스파 방법이 있다. 이 방법은 매우 짧은 폭의 펄스가 절연체를 통과하면서 얻은 공간전하에 관한 정보를 de convolution에 의한 후속신호처리하면 절연체내에 존재하는 전하의 공간분포에 따라서 전체전하량 등을 구할 수 있다. 고전압용 전선에 쓰이는 절연물질에서는 사용되는 전압의 종류에 따라 다른 형태의 문제점이 발견된다. dc절연에 있어서는 전압의 극성이 갑자기 바뀌는 polarity reversal에 의한 절연파괴가, 그리고 ac절연에서는 소위 트리잉 현상이라고 불리우는 전기적인 열화반응에 의한 절연체의 파괴 현상이 중요시되고 있다. 이들 모두 공간전하의 축적이 심할 수록, 그리고 기공 또는 그밖에 전기집중현상을 일으킬 수 있는 요인이 많을 수록 절연체의 절연수명을 급격히 감소한다. 따라서 절연수명을 향상시키기 위하여는 공간전하의 축적을 방지해야 하는데, 여기에는 전기적인 측면에서의 노력과 아울러 고분자 자체의 개량등의 노력도 함께 있어야 한다.

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DC Electric Field Characteristics considering Thermal Effect for HVDC Slip-on Type Outdoor Termination (HVDC 슬립 온형 기중 종단접속함에 대한 열 영향 반영 DC 전계 특성 평가)

  • Kwon, Ik-Soo;Hwang, Jae-Sang;Koo, Jae-Hong;Sakamoto, Kuniaki;Lee, Bang-Wook
    • KEPCO Journal on Electric Power and Energy
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    • v.1 no.1
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    • pp.39-46
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    • 2015
  • A outdoor termination installed at the outdoor substation is required to connect undergroud cables and overhead transmission lines. The joint box for AC transmission system is already developed and widely used to interconnect overhead and undergroud systems. But the development of the joint box for DC transmission system was only introduced from China and Japan, but theire developemnt staus and core technologies were not fully reported. In order to implement HVDC systems connecting ovehead transmission lines and undergroud cables, a outdoor termination should be developed, but the detailed specifications and information of this device were not reported. It is estimated that the development of the joint box for DC environment has some technical obstacles including insulating materials, electric field mitigation, thermal temperature rise, and space charge accumuations. Among this, the most important one is the DC elctrical insualtion design. Therefore, in order to investigate the DC elctrical insualton design of outdoor termination, the design of AC slip-on type outdoor termination is reffered, and DC electric field analysis performed to verify the possiblity of application of AC joint box into DC joint box. Especially for DC electric field analysis, temperature rise of insualting materials of a joint box was considered, because the conductivity of materials could be changed due to temperature rise. Furthermore, DC electric field analysis considering transinet state, and polarity reversal state were also investigated to verify which state is the most severe condition for the DC joint box. From the simualtion resulsts, it was shown that the value and the position of maximum electric field was obtained comparing AC state, DC state without temperaure rise, and DC state with temperaure rise. And it was confimred that severe DC electric field was observed considing temperaure rise. Finally, in order to reduce DC eletric field intensifation, different configuration of the joint box was applied and it was not possible to obtain satisfactory results. It means that the slight change of configuration of AC joint box was not the suitable soluton for DC joint box. It is essential to establish novel DC insulaton design skills and method for DC joint box to commercialze this product in the near future.

Development of HVDC 500kV PPLP MI cable systems in Korea (HVDC 500kV PPLP MI 케이블시스템 개발)

  • Lee, Soo-bong;Cho, Dong-sik;Lee, Tae-ho;Kim, Sung-yun;Lee, Su-kil;Jeon, Seung-ik
    • Proceedings of the KIEE Conference
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    • 2015.07a
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    • pp.1202-1203
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    • 2015
  • This paper describes the development of HVDC ${\pm}500kV$ polypropylene laminated paper (PPLP) mass-impregnated (MI) type cable system for HVDC transmission lines. As you know, mass-impregnated type cable generally has only insulating layer with the Kraft paper impregnated with a high-viscosity insulating compound. But polypropylene laminated paper is made of a layer of extruded polypropylene (PP) film sandwiched between two layers of Kraft paper. Thanks to PP film and its combination with Kraft paper, PPLP has higher AC, Impulse (Imp.) and DC breakdown (BD) strengths as well as lower dielectric loss than conventional Kraft paper insulation. In addition, Kraft MI cable has a limitation for the maximum conductor temperature as $55^{\circ}C$ But this PPLP MI cable has higher maximum conductor temperature than that of Kraft MI cable due to advantage of oil drainage characteristics. It is the most economic type of cable for HVDC transmission. Also HVDC ${\pm}500kV$ PPLP MI cable system was developed including land joints and outdoor-terminations. In order to prove the mechanical and electrical performances, the type test was carried out according to CIGRE recommendations. A full scale cable system has been tested successfully. And additional load cycle and polarity reversal tests on the cable system showed a higher performance compared with a similar mass impregnated paper cable.

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