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"GIS"

Design and Fabrication of an LPVT Embedded in a GIS Spacer
Seung-gwan Park, Gyeong-yeol Lee, Nam-hoon Kim, Cheol-hwan Kim, Gyung-suk Kil
J Electr Electron Mater 2024;37(2):175-181.   Published online March 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.2.8
In electrical power substations, bulky iron-core potential transformers (PTs) are installed in a tank of gas-insulated switchgear (GIS) to measure system voltages. This paper proposed a low-power voltage transformer (LPVT) that can replace the conventional iron-core PTs in response to the demand for the digitalization of substations. The prototype LPVT consists of a capacitive voltage divider (CVD) which is embedded in a spacer and an impedance matching circuit using passive components. The CVD was fabricated with a flexible PCB to acquire enough insulation performance and withstand vibration and shock during operation. The performance of the LPVT was evaluated at 80%, 100%, and 120% of the rated voltage (38.1 kV) according to IEC 61869-11. An accuracy correction algorithm based on LabVIEW was applied to correct the voltage ratio and phase error. The corrected voltage ratio and phase error were +0.134% and +0.079 min., respectively, which satisfies the accuracy CL 0.2. In addition, the voltage ratio of LPVT was analyzed in ranges of -40~+40℃, and a temperature correction coefficient was applied to maintain the accuracy CL 0.2. By applying the LPVT proposed in this paper to the same rating GIS, it can be reduced the length per GIS bay by 11%, and the amount of SF6 by 5~7%.
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Optimization of Curing Pressure for Automatic Pressure Gelation Molding Process of Ultra High Voltage Insulating Spacers
Chanyong Lee, Hangoo Cho, Jaehyeong Lee
J Electr Electron Mater 2024;37(1):56-62.   Published online January 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.1.7
By introducing curing kinetics and chemo-rheology for the epoxy resin formulation for ultra-high voltage gas insulated switchgear (GIS) Insulating Spacers, a study was conducted to simulate the curing behavior, flow and warpage analysis for optimization of the molding process in automatic pressure gelation. The curing rate equation and chemo-rheology equation were set as fixed values for various factors and other physical property values, and the APG molding process conditions were entered into the Moldflow software to perform optimization numerical simulations of the three-phase insulating spacer. Changes in curing shrinkage according to pack pressure were observed under the optimized process conditions. As a result, it was confirmed that the residence time in the solid state was shortened due to the lowest curing reaction when the curing holding pressure was 3 bar, and the occurrence of deformation due to internal residual stress was minimized.
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Design and Fabrication of an Electronic Voltage Transformer (EVT) Embedded in a Spacer of Gas Insulated Switchgears
Seung-hyun Lim, Nam-Hoon Kim, Dong-eon Kim, Seon-gyu Kim, Gyung-suk Kil
J Electr Electron Mater 2022;35(4):353-358.   Published online July 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.4.6
Bulky iron-core potential transformers (PT) are installed in a tank of gas insulated switchgears (GIS) for a system voltage measurement in power substations. In this paper, we studied an electronic voltage transformer (EVT) embedded in a spacer for miniaturization, eco-friendliness, and performance improvement of GIS. The prototype EVT consists of a capacitive probe (CP) that can be embedded in a spacer and a voltage Follower with a high input and a low output impedance. The CP was fabricated in the form of a Flexible-PCB to acquire the insulation performance and to withstand vibration and shock during operation. Voltage ratio of the prototype EVT is about 42,270, and the frequency bandwidth of -3 dB ranges from 0.33 Hz to 3.9 MHz. The voltage ratio error evaluated at about 6%, 12% and 18% of the rated voltage of 170 kV was 0.32%, and the phase error was 12.9 minutes. These results were within the accuracy for the class 0.5 specified in IEC 60044-7 and satisfy even in ranges from 80% to 120% of the rated voltage. If the prototype EVT replaces the conventional iron-core potential transformer, it is expected that the height of the GIS could be reduced by 11% and the amount of SF6 will be reduced by at least 10%.
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A Study on the Manufacture of Gas Insulated Switchgear Spacer Using APG Molding Process
Chanyong Lee, Jaesung Bae, Han-gu Cho, Sangmook Lee, Jaehyeong Lee
J Electr Electron Mater 2022;35(4):386-391.   Published online July 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.4.11
The gas insulation switchgear, which is a device for protecting a power system, cannot be supported by the insulation gas itself in a charge unit stored in a metal container. Therefore, molding technology is required to manufacture a gas insulation switch spacer. The APG method injection molding simulation was performed by applying the variables obtained through the physical properties of an epoxy composite used for manufacturing an insulating spacer to a moldflow software. After varying the temperature conditions of heater in the simulation, the thermal characteristics and the degree of hardening of the spacer were analyzed, based on which the optimum process conditions are presented.
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Simulation for Injection Molding of Insulation Spacers for Gas-Insulated Switches Using Thermosetting Epoxy Resin
Jaesung Bae, Wonchang Lee, Hongsub Jee, Byungyou Hong, Jaehyeong Lee
J Electr Electron Mater 2021;34(6):426-432.   Published online November 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.6.4
Injection molding is used in many industrial fields such as home appliances, vehicle parts, and electronic device parts because various resins can be molded, leading to mass production of complex shapes. Generally, the empirical prediction method is used to set the initial processing conditions of injection molding. However, this approach requires a lot of cost and its presented solution is not accurate. In this paper, injection molding was simulated through the MoldflowTM in order to manufacture the spacer for gas insulated switch. Through the simulation, the flow of the resin with respect to the diameter of the inlet was analyzed. It was found that the process was possible at a higher resin temperature as the diameter of the inlet increased. In addition, through thermal analysis during injection of the resin, it was confirmed that a stagnation phenomenon occurred at the insert portion during injection molding, and the temperature of the resin was higher than that of the mold. As in this paper, if the spacer is manufactured by optimizing the injection hole and the temperature of the injection process based on simulation, it is expected that the spacer can be manufactured with high productivity.
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Methodology for Optimizing Permittivity Distribution of 145 kV Miniaturized Functional Graded Spacer Using Non-Dominated Sorting Genetic Algorithm-Ⅱ
Yo-han Noh, Seung-hyun Kim, Jong-hun Cheong, Han-goo Cho
J Electr Electron Mater 2020;33(3):225-230.   Published online May 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.3.12
Recently, with the miniaturization of GIS, there is a need for the miniaturization of spacers as accessories. Miniaturized spacers make it difficult to secure adequate insulation distances, resulting in a more concentrated electric field at the triple junction of high-voltage (HV) conductor-insulator (spacer)-insulation gas (SF6), which is a weakness in GIS. Therefore, by introducing a new concept design technology, functionally graded material (FGM), which is recently applied to various materials and parts industries, three-dimensional control of the dielectric constant distribution in a spacer can be expected to alleviate triple-junction electric field occupancy and improve insulation performance. In this study, we propose an optimized model using NSGA-II to optimize the permittivity distribution of FGM applied spacer.
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Electrical and Mechanical Strength Properties of Epoxy/Micro Silica and Alumina Composites for Power Equipment
Joo-eon Park, Jae-jun Park
J Electr Electron Mater 2018;31(7):496-501.   Published online November 1, 2018
In this study, we prepared 40, 45, 50, 55, 60, 65, and 70 wt% content composites filled in epoxy matrix for two micro silica and three micro alumina types for use as a GIS heavy electric machine. As a filler type of epoxy composite, micro silica composites showed excellent AC breakdown strength properties compared to micro alumina composites in the case of electrical properties of micro silica and alumina. The electrical breakdown properties of micro silica composites increased with increasing filler content, whereas those of micro alumina decreased with increasing filler content. In the case of mechanical properties, the micro silica composite showed improved tensile strength and flexural strength compared with the micro alumina composite. In addition, mechanical properties such as tensile strength and flexural strength of micro silica and alumina composites decreased with increasing filler content. This is probably because O-H groups are present on the surface of silica in the case of micro silica but are not present on the surface of alumina in the case of micro alumina.
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A Study on Degradation Pattern of GIS Using Clustering Methode
Deok Jin Lee
J Electr Electron Mater 2018;31(4):255-260.   Published online May 1, 2018
In recent years, increasing electricity use has led to considerable interest in green energy. In order to effectively supply, cut off, and operate an electric power system, many electric power facilities such as gas insulation switch (GIS), cable, and large substation facilities with higher densities are being developed to meet demand. However, because of the increased use of aging electric power facilities, safety problems are emerging. Electromagnetic wave and leakage current detection are mainly used as sensing methods to detect live-line partial discharges. Although electromagnetic sensors are excellent at providing an initial diagnosis and very reliable, it is difficult to precisely determine the fault point, while leakage current sensors require a connection to the ground line and are very vulnerable to line noise. The partial discharge characteristic in particular is accompanied by statistical irregularity, and it has been reported that proper statistical processing of data is very important. Therefore, in this paper, we present the results of analyzing Φ-q-n cluster distributions of partial discharge characteristics by using K-means clustering to develop an expert partial discharge diagnosis system generated in a GIS facility.
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Mechanical Fracture Characteristic of Epoxy Insulation Barrier for High Voltage GIS
Wang Byuck Suh
J Electr Electron Mater 2017;30(10):641-645.   Published online October 1, 2017
In this study, an epoxy insulation barrier for high voltage GIS was developed using epoxy and a filler with a Young`s modulus of 11 GPa. The material was investigated using a simulation of the principal stress, displacement, and safety factors while optimizing the profile shape. The simulation showed that thelarger Young`s modulus of the Al2O3 filler compared to the SiO2 in the epoxy insulation can contribute to an increase in resistance to mechanical fracturing for theoptimized profile barrier in high voltage GIS. In addition, the safety factor was improved by 10%. It can be concluded that the mechanical fracturing properties of the insulation barrier can be enhanced by increasing the content of the elastic filler, Al2O3, for high voltage GIS applications.
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Mechanical Properties of Epoxy Alumina Multi-Composites
Jae-jun Park
J Electr Electron Mater 2016;29(12):796-802.   Published online December 1, 2016
In order to develop an electrical insulation material for gas GIS (insulation switch gear) spacer, 4 types of epoxy/micro-alumina (40, 50, 60, 70 wt%) composites and 9 types of epoxy/nano-alumina (1, 3, 5 g)/micro-alumina (40, 50, 60, 70 wt%) composites were prepared and tensile test was carried out. In here, nano-alumina was previously surface-treated with GDE (glycerol diglycidyl ether). As micro-alumina and GDE-treated nano-alumina contents increased, tensile strength increased and the highest value was shown in the system with 3 g GDE-treated nano-alumina.
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Dielectric Properties of Epoxy-Nano Composites for Surface Modified Nano Alumina
Jae-jun Park
J Electr Electron Mater 2016;29(10):613-619.   Published online October 1, 2016
The aim of this study is to improve of dielectric properties using epoxy/nano alumina composites with adding glycerol diglycidyl ether (GDE:1,2 g). This paper deals with the effects of dielectric properties(□´ and tan δ) for epoxy/nano alumina contents (1,3 phr) and GDE addition (1,2 g)composites. 5 kinds specimen were prepared with containing epoxy resins, epoxy nano alumina composites. Average particle size of nano used were 30 nm. The nano alumina used were gamma phase particles of spherical shape. The suppression of epoxy chain motion by addition of nano alumina+GDE decreased dielectric loss and relative permittivity magnitude.
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Dielectric Properties of Epoxy/Micro/Nano Alumina Multi-Composites
Jae-jun Park
J Electr Electron Mater 2016;29(9):565-570.   Published online September 1, 2016
In this work, the complex permittivity of epoxy resins is measured. Epoxy resins, epoxy with micro size fillers and epoxy with micro+nano alumina composites have been evaluated for dielectric properties according to frequency variation. The dielectric spectroscopy measurement and analyses are carried out in the frequency range of 10-2 Hz to 1MHz and constant to room temperature. The results of dielectric loss suggest that significant improvement in the electrical performance can be expected by using samples containing nano and micro fillers mixture when compared to materials containing only microfillers. As the result, we verified the specific characteristics of dielectric permittivity and dielectric loss namely, relative permittivity become low with improving dispersibility of nano+micro mixture composites and become rise with agglomerate of nano particles.
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Insulation Materials : A Study on Electrical and Mechanical Properties of Epoxy Insulation Barrier for High Voltage GIS Using a Filler of SiO2 and Al2O3
Wang Byuck Suh, Dong Ho Bae
J Electr Electron Mater 2015;28(6):379-383.   Published online June 1, 2015
Some insulating materials are organized and analyzed with variables to obtain the optimized profile of encapsulated three phase of epoxy barrier which is applied to gas compartment and supporting conductors for high voltage GIS (gas insulated switchgear). The high voltage GIS is used in electrical power system and operating reliability. In this paper, optimization possibility of barrier shape including both electrical insulation performance and mechanical strength, premised on that condition minimizing volume and light weight should be kept for high voltage GIS, could be achieved by analysis simulation. As a result, filling material which is lower permittivity such as SiO2 instead of Al2O3 properly to the epoxy material, can be improved to increase the electrical insulation performance and mechanical strength for an optimized profile barrier of a high voltage GIS.
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High Voltage and Discharge Engineering : Identification of Defect Type by Analysis of a Single PD Pulse in Gas Insulated Structure
Hyang Eun Jo, Sun Jae Kim, Gi Woo Jeong, Gyung Suk Kil
J Electr Electron Mater 2015;28(5):320-325.   Published online May 1, 2015
This paper dealt with a defect identification algorithm which is based on single partial discharge (PD) pulse analysis in gas insulated structure. Four types of electrode systems such as a needle-plane, a plane-needle, a free particle and a crack inside spacer were fabricated to simulate defects in gas insulated switchgear (GIS). We measured single PD pulse by an oscilloscope with a sampling rate of 5 GS/s and a frequency bandwidth of 1 GHz. Data aquisition and signal processing were controlled by a LabVIEW program. Physical shapes of PD pulses were compared with kurtosis, skewness and time-based parameters as rising time, falling time and pulse-width. These parameters were analysed by an algorithm with a back propagation algorithm (BPA). By applying the algorithm, the identification rate was 97% for the needle-plane electrode, 96% for the plane-needle electrode, 91% for the free particle and 93% for the crack inside spacer. The results verified that the algorithm could identify the type of defects in GIS.
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Analysis on PD Pulse Distribution by Defects Depending on SF6 Pressure
Sun Jae Kim, Hyang Eun Jo, Gi Woo Jeong, Gyung Suk Kil, Sung Wook Kim
J Electr Electron Mater 2015;28(1):40-45.   Published online January 1, 2015
Electrode systems: a protrusion on conductor (POC), a protrusion on enclosure (POE), a crack in epoxy plate and a free particle (FP) were fabricated to simulate insulation defects in a gas insulated switchgear (GIS). SF6 gas was filled in the electrode systems by 3 bar and/or 5 bar, respectively. Partial discharge (PD) pulses were detected through a 50 Ω non-inductive resistor. A calibration test was carried out according to IEC 60270, and the sensitivity was 0.25 pC/mV. PD pulses were distributed in the phase of 50˚∼135˚ and over 95% of them existed in the phase of 55˚∼120˚ for the POC. PD pulses were distributed in the phase of 230˚~310˚ and over 90% of them existed in phase of 220˚∼300˚ for the POE. PD pulses occurred in the phase of 40˚∼60˚ and 220˚∼300˚ for the crack, and pulse counts were 25%higher in negative polarity than in positive polarity. PD pulses were distributed in every phase unlike to other three electrode systems and the peak magnitude was measured at 118˚ and 260˚ for the FP. As described above, PD pulses were observed in positive polarity for the POC, in negative one for the POE, in both one for the crack and the FP. In conclusion, it is expected that the identification rate of defect type can be improved by considering the polarity ratio of PD pulses on the PRPDA method.
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Breakdown Characteristics of Dry Air under 362 kV GIB
Ki Son Han, Hyung Jun Ju, Jin Yul Yoon, Hong Geun You
J Electr Electron Mater 2010;23(10):804-808.   Published online October 1, 2010
In this paper, we studied the dielectric breakdown voltage characteristics by the AC withstand voltage test on using green insulation dry air instead of SF6 insulation gas used in the GIB (gas insulated bus) of 362 kV GIS (gas insulated switchgear). The AC withstand voltage test applied to the standard KEPCO`s 362 kV GIB with dry air insulation, and the equivalence of dielectric breakdown voltage for dry air and SF6 gas were examined, and the empirical formulas of dielectric breakdown voltage for dry air were calculated, and the criterion of AC withstand voltage test for dry air insulation was derived. Using the criterion, dry air can be used instead of SF6 gas for 362 kV GIB in the factory acceptance test was confirmed.
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A Study on Application of Stepwise Gate Signal for a-Si Gate Driver
Jae Hoon Myung, Jin Oh Kwag, Jun Sin Yi
J Electr Electron Mater 2008;21(3):272-278.   Published online March 1, 2008
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AC Breakdown Voltage Characteristics of SF6/CF4 in Uniform Field
J Electr Electron Mater 2007;20(4):381-387.   Published online April 1, 2007
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2.2-inch QCIF+ a-Si TFT- LCD using Integrated Row Driver Circuits
J Electr Electron Mater 2005;18(3):264-268.   Published online March 1, 2005
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High Voltage Engineering : The Analysis of PD Signal using Neural Network
Jong Seo Kim, Yong Pil Park, Min U Cheon
J Electr Electron Mater 2004;17(5):567-571.   Published online May 1, 2004
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