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"Electric fiel"

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"Electric fiel"

Electrical Properties of Liquid Insulation as a Function of Temperature
Tae-hee Kim, Yong-sung Choi
J Electr Electron Mater 2024;37(3):280-285.   Published online May 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.3.6
In this paper, the electrical properties of liquid insulating oil were analyzed by changing the ambient temperature change at 10℃ in-tervals from 0℃ to 30℃ through an insulation breakdown experiment in order to analyze the insulation performance of liquid in-sulating oil that varies according to temperature changes. As a result, it was confirmed through experiments that the lower the am-bient temperature, the higher the insulation breakdown voltage, depending on both the electrode shape and the electrode interval, and it was determined that the lower the ambient temperature, the higher the insulation performance of the liquid insulating oil.
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Electrical Characteristics Analysis According to Electrode Shape and Distance Between Electrodes
Tae-hee Kim, Soon-hyung Lee, Mi-yong Hwang, Yong-sung Choi
J Electr Electron Mater 2023;36(4):408-412.   Published online July 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.4.13
In this paper, in order to analyze high electrical insulation and cooling performance using mineral oil, the liquid insulating oil was changed in electrode shape and distance between electrodes to compare and analyze electrical characteristics according to equal electric field, quasi-equivalent electric field, and unequal electric field. As a result, the breakdown voltages were 36,875 V and 36,875 V in the form of sphere-sphere and plate-plate electrodes with equal electric fields. The breakdown voltage was 31,475 V in the sphere-plate electrode type, which is a quasi-equilibrium field, and the breakdown voltage was 28,592 V, 27,050 V, and 22,750 V in the needle-needle, sphere-needle, and needle-plate electrode types, which are unequal fields. Through this, it is possible to know the difference in breakdown voltage according to the type of electric field. The more equal the field, the higher the breakdown voltage, and the more unequal field, the lower the breakdown voltage. The difference in insulation breakdown voltage could be seen depending on the type of electric field, the insulation breakdown voltage was higher for the more equal electric field, and the insulation breakdown voltage was lower for the more unequal electric field. Also, it was confirmed that the closer the distance between the electrodes, the higher the insulation breakdown voltage, the higher the insulation breakdown current, and the insulation breakdown voltage and the insulation breakdown current were proportional.
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Study on the Breakdown of the Transformer Insulating Oil in Nonuniform Electric Field
Ha-young Cho, Soon-hyung Lee, Mi-yong Hwang, Yong-sung Choi
J Electr Electron Mater 2023;36(3):280-285.   Published online May 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.3.11
A breakdown voltage and breakdown electric field of the transformer insulating oil of liquid dielectric were studied in uniform electric field and non-uniform electric field and the transformer insulating oil was observed by the process reached breakdown. Insulation performance evaluation of the liquid dielectric was evaluated at the electrode spacing of 2.5 mm under the conditions of domestic and international standards (KS C IEC 60156), so a comparative review was conducted at the electrode spacing of 2.5 mm. When the electrode spacing is 2.5 mm, the average breakdown voltage is 38.5 kV for sphere-sphere electrodes, 26.6 kV for plate-plate electrodes, 22.9 kV for needle-needle electrodes, and 24.3 kV for sphere-needle electrodes. 23.7 kV for the sphere-plate electrode, and 20.7 kV for the needle-plate electrode. From these results, it can be seen that the average value of the breakdown voltage at the electrode spacing of 2.5 mm, in ascending order, is sphere-sphere, plate-plate, sphere-needle, sphere-plate, needle-needle and needle-plate. It was found that the breakdown voltage of the unequal field was lower than that of the equal field.
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Finite Element Analysis for the Optimal Shape of the High Voltage Insulator for Power Transmission Lines
Taeyong Kim, Simpy Sanyal, Matheus Rabelo, Junsin Yi
J Electr Electron Mater 2022;35(1):66-71.   Published online January 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.1.10
The insulator used for the transmission line is a device that is bonded with a cap, pin, ceramic, and cement to withstand insulation capacity and mechanical load. The insulator design can help to reduce the dispersion of the electric field; thus, the optimization of today’s design, especially as demanded power grows, is critical. The designs of four manufacturers were used to perform a comparative analysis. Under dry circumstances of the new product, an electric field distribution study was done with no pollutants attached. Manufacturer D’s design has the best voltage uniformity of 24.33% and the arc length of 500 mm or more. Manufacturer C’s design has an equalizing voltage of more than 2% higher than that of other manufacturers. The importance of the design of the insulator and the number of connections according to the installation conditions is very efficient for transmission lines that will increase in the future.
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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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Effect of Porcelain/Polymer Interface on the Microstructure, Insulation Characteristics and Electrical Field Distribution of Hybrid Insulators
Jun-young Cho, Woo-seok Kim, Ho-sung An, Hee-sung An, Tae-wan Kim, Yun-seog Lim, Sung-hwan Bae, Chan Park
J Electr Electron Mater 2017;30(9):558-565.   Published online September 1, 2017
Hybrid insulators that have the advantages of both porcelain (high mechanical strength and chemical stability) as well as polymer (light weight and high resistance to pollution) insulators, can be used in place of individual porcelain and polymer insulators that are used for both mechanical support as well as electrical insulation of overhead power transmission lines. The most significant feature of hybrid insulators is the presence of porcelain/polymer interfaces where the porcelain and polymer are physically bonded. Individual porcelain and polymer insulators do not have such porcelain/polymer interfaces. Although the interface is expected to affect the mechanical/electrical properties of the hybrid insulator, systematic studies of the adhesion properties at the porcelain/polymer interface and the effect of the interface on the insulation characteristics and electric field distribution of the hybrid insulator have not been reported. In this study, we fabricated small hybrid insulator specimens with various types of interfaces and investigated the effect of the porcelain/polymer interface on the microstructure, insulating characteristics, and electric field distribution of the hybrid insulators. It was observed that the porcelain/polymer interface of the hybrid insulator does not have a significant effect on the insulating characteristics and electric field distribution, and the hybrid insulator can exhibit electrical insulating properties that are similar or superior to those of individual porcelain and polymer insulators.
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Technology Education : Regular Paper ; The Analysis of Temperature and Electric Field due to Contact Failure in Power Substation
Ki Joon Kim
J Electr Electron Mater 2016;29(5):307-311.   Published online May 1, 2016
Although there are existing Residual Current Protective Device (RCD) including detect electric leakage and elements such as short circuit and surge, the occurrence of incidents caused by electric faults, including fire, are still constant. The purpose of this study is to analyze the causes of accidents through the electric field distribution in the interpretation of the fault contact breaker. Simulation results by the arc fault has shown the convergence of temperature and electric field to the defect. Through their simulation results, the main cause of erosion phenomena in circuit breaker bar is the electric arc by concentration of electric field not due to dissolve by temperature.
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Energy Materials : Regular Paper ; A Study on the Color Granite Fabrication by Bias Enhancement Method
Jong Kug Park, Hong Jik Shin, Won Seok Choi, Jae Chan Han
J Electr Electron Mater 2016;29(4):247-249.   Published online April 1, 2016
In this study, we investigated the color change of the normal light gray granite as the high value color granite. By coating the metal catalyst liquid on the surface of granite stone, the metal particles were penetrated into the granite and the color of granite was changed permanently through the annealing treatment. To increase penetration depth into the granite, we used DC (direct current) bias. Two kinds of bias were used such as DC bias and pulse DC bias. And the penetration time was changed as 30 and 60 min. In all cases, the color granite were successfully obtained. Regardless of the catalyst reaction time, the penetration depth was increased by using the bias treatment. We obtained a penetration depth of 21 mm with the DC pulse bias during 60 min.
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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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Regular Paper : A Study on Electrical Characteristic Improvement & Design Parameters of Power MOSFET with Single Floating Island Structure
Yu Seup Cho, Man Young Sung
J Electr Electron Mater 2015;28(4):222-228.   Published online April 1, 2015
Power MOSFETs (metal oxide semiconductor field effect transistor) operate as energy control semiconductor switches. In order to reduce energy loss of the device, it is essential to increase its conductance. However, a trade-off relationship between the breakdown voltage and conductance of the device have been the critical difficulty to improve. In this paper, theoretical analysis of electrical benefits on single floating island power MOSFET is proposed. By the method, the optimization point has set defining the doping limit under single floating island structure. The numerical multiple 2.22 was obtained which indicates the doping limit of the original device, improving its ON state voltage drop by 45%.
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High Voltage and Discharge Engineering : Analysis of SF6, N2 Pressure Characteristic of Spark Gap According to Simulation
Sun Ho Choi, Tae Woo Lee, Jeong Ju Bang, Chang Su Huh
J Electr Electron Mater 2014;27(3):172-177.   Published online March 1, 2014
Industrial, medical, environment and agriculture application of pulse power technology have been developing rapidly in many field. In order to make use in the form of pulses is applied to the pulse forming technique. At this time, spark gap is generally used for the pulse forming. Spark gap may bepossible to simulate the shape of the electrode, to know the uniform or non-uniform electric field of the electrode structure. Further, it can be determined using Paschen`s law applied pressure of the insulating gas in accordance with the voltage which is created using the value of the electric field. In this paper, we tried to found using a formula and the simulation process to determine the pressure. The value of the electric field is different according to the shape of the electrode. So, the range of pressure applied also varies. In order to withstand the 100 kV with a gap of 5 ㎜, the nitrogen gas must be applied to about 7 bar in the electrode structure. On the other hand, in the same conditions, Sulfur hexafluoride gas must be applied to about 2 bar. Consequently, the Sulfur hexafluoride gas has a higher insulation properties than nitrogen gas may be applied to low pressure at the same conditions.
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High Voltage and Discharge Engineering : A Study on the Electromagnetic Characteristics of a High Voltage Switchgear According to the Arrangements of Bus Bars to Improve Electrical Stabilities
Seok Ho Nam, Jeong Il Heo, Jong Gi Hong, Hyoung Ku Kang
J Electr Electron Mater 2013;26(3):216-220.   Published online March 1, 2013
The rated voltage has been rising in order to minimize the losses in power transmission. The high voltage electric machines should be minimized due to the constraints of space. Therefore, the temperature of high voltage electric apparatuses easily exceeds the temperature limits. In this paper, it is investigated that how to minimize the internal temperature rising of a high voltage switchgear by adjusting the arrangement of bus bars. High voltage switchgears consist of a circuit breaker, a CT, a PT, a earthing switches, bus bars, and so on. It is very difficult to estimate the electromagnetic properties of a high voltage switchgear due to these various environments and structures. In this paper, analyses are focused on the electromagnetic characteristics of bus bars according to the arrangement method and the enclosures to simplify the electromagnetic characteristics of a switchgear. It is found that the characteristics of electric field intensity and electromagnetic losses in bus bars are influenced by the arrangement method of bus bars. However, it is confirmed that the electromagnetic characteristics of enclosures are not affected by the arrangement of bus bars. In this paper, the arrangement methods of bus bars to minimize the electric field intensity and electromagnetic losses are suggested. It is expected that the research results are helpful to design and develop an electrically reliable high voltage switchgear.
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Insulation Materials : Thermal, Mechanical, and Electrical Properties for EMNC_60 and EMNC_65
Jae Jun Park
J Electr Electron Mater 2012;25(11):895-901.   Published online November 1, 2012
In order to application for high voltage heavy electric equipments, epoxy/microsilica 60 wt%/nano layered silicate composites (EMNC_60) and epoxy/microsilica 65 wt%/nano layered silicate composites (EMNC_65) respectively was synthesized by our electric field dispersion method and the result was obtained completely dispersion state. Thermal properties such as glass transition temperature (Tg) and thermal expansion coefficient, and DMA characteristics were studied, and mechanical properties such as tensile and flexural tests were performed. AC electrical insulation strength was also tested. The study on thermal property, EMNC_65 was better than EMNC_60 and mechanical ,electrical properties much improved EMNC_60 compared with EMNC_65.
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Magnetic Field Properties About Core Change
Ki Joon Kim
J Electr Electron Mater 2012;25(2):159-164.   Published online February 1, 2012
In this paper, it tried to develop the core sensor for detection of micro magnetic field in electric wires. The sensor is non contact type and is consisted of ferrite core for low price. To investigate their properties for variations of current, it changed the number of winding and the length of sample core, it examined, to check the live wire situation in built-in wires, electrical characteristics due to difference between electric wires and core sensor. As the results, it verified live wire situation at the number of winding(5,000) and within length of 6[cm]. Also, it obtained magnetic field magnitude decreased inverse proportion ratio to a square about difference between electric wires and core sensor.
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A Study on the Design of Compact Polymer Bushing with Inner Control Shield
Han Goo Cho, Dae Hoon Yoo, Hyung Kyung Kang
J Electr Electron Mater 2009;22(5):436-442.   Published online May 1, 2009
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Analysis of Electric Field Distribution and Characteristics of Volume Resistivity in HDPE/EVA Film for Recycling
Hung Kyu Lee, Kee Joe Lim, Yong Joo Kim
J Electr Electron Mater 2008;21(9):801-807.   Published online September 1, 2008
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Measurement of Piezoelectric Effect and Reduction of Strain in InGaN/GaN Quantum Well with Superlattice Buffer
Kyoung Shick Kong, Joo In An, Seuk Joo Rhee
J Electr Electron Mater 2008;21(6):503-508.   Published online June 1, 2008
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Piezoelectric and Dielectric Properties on PSN-PMN-PZT Composition according to CeO2 Addition
J Electr Electron Mater 2006;19(9):838-842.   Published online September 1, 2006
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Aging Phenomena of Multilayered PMN-PZT Ceramic Actuator
J Electr Electron Mater 2005;18(5):445-449.   Published online May 1, 2005
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Electric Field Strength and Compressive Stress Effects on the Displacement of Multilayered Ceramic Actuators
J Electr Electron Mater 2005;18(3):248-252.   Published online March 1, 2005
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Estimation of Piezoelectric Fields built in InxGa1-xN/GaN Quantum Well Structures using Numerical Analysis
Gyeong Chan Kim, Tae Geun Kim
J Electr Electron Mater 2004;17(1):89-93.   Published online January 1, 2004
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Display : Study of the Electro-Optic Characteristics Depending on Electric Characteristic of the Black Matrix in a Homogeneous Liquid Crystal Cell Driven by Fringe-Electric Field
Mi Sug Kim, Hyang Yul Kim, Jae Wan Go, Seung Hui Lee
J Electr Electron Mater 2003;16(11):1008-1013.   Published online November 1, 2003
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