Your search keyword '"Seung Kyu Baik"' showing total 26 results

1. Nondestructive measurement of critical current distribution of SmBCO coated conductor using Hall probe

Author

Ho-Sup Kim, Sang-Soo Oh, Nam-Jin Lee, Seung-Kyu Baik, Dong-Woo Ha, Rock-Kil Ko, Hong-Soo Ha, Tae-Hyung Kim, Do-Jun Youm, Seung-Hyun Moon, and Chan Park

Subjects

Barium compounds -- Magnetic properties, Barium compounds -- Electric properties, Copper oxide superconductors -- Magnetic properties, Copper oxide superconductors -- Electric properties, High temperature superconductors -- Usage, Samarium -- Magnetic properties, Samarium -- Electric properties, Superconductive devices -- Design and construction, Business, Electronics, Electronics and electrical industries

Published

2010

2. Purification of the coolant for hot roller by superconducting magnetic separation

Author

Tae-Hyung Kim, Dong-Woo Ha, Jun-Mo Kwon, Myung-Hwan Sohn, Seung-Kyu Baik, Sang-Soo Oh, Rock-Kil Ko, Ho-Sup Kim, Young-Hun Kim, and Seong-Kuk Park

Subjects

Cryostat -- Usage, Iron oxides -- Magnetic properties, Iron oxides -- Electric properties, Steel -- Magnetic properties, Steel -- Electric properties, Superconducting magnets -- Design and construction, Superconducting magnets -- Heating, cooling and ventilation, Business, Electronics, Electronics and electrical industries

Published

2010

3. Purification of wastewater from paper factory by superconducting magnetic separation

Author

Dong-Woo Ha, Tae-Hyung Kim, Myung-Hwan Sohn, Jun-Mo Kwon, Seung-Kyu Baik, Rock-Kil Ko, Sang-Soo Oh, Hong-Soo Ha, Ho-Sup Kim, Young-Hun Kim, and Tae-Wook Ha

Subjects

Bismuth -- Magnetic properties, Bismuth -- Electric properties, Paper industry -- Waste management, Superconducting magnets -- Usage, Water -- Purification, Water -- Innovations, Business, Electronics, Electronics and electrical industries

Published

2010

4. Investigation of thermal quench characteristic in the HST Bi-2223 racetrack coil

Author

Jaedeuk Lee, Ho Min Kim, Seung Kyu Baik, Eon-Yong Lee, Young Kil Kwon, Minwon Park, In Keun Yu, and Young-Sik Jo

Subjects

Electric coils -- Design and construction, Superconductors -- Thermal properties, Business, Electronics, Electronics and electrical industries

Abstract

The quench propagation in the high temperature superconducting (HTS) racetrack coil wound with Bi-2223 tapes is studied. The results are applied to design a HTS coil and its quench protection circuit.

Published

2008

5. Study on homopolar superconductivity synchronous motors for ship propulsion applications

Author

Sang-Ho Lee, Jung-Pyo Hong, Young-Kil Kwon, Young-Sik Jo, and Seung-Kyu Baik

Subjects

Superconductivity -- Analysis, Torque -- Evaluation, Business, Electronics, Electronics and electrical industries

Abstract

The conceptual design of homopolar superconductivity synchronous motors (HSSMs) that apply to low-speed and high torque for ship propulsion applications is described. Superconducting synchronous motors compared with conventional motors has reduced the motor size and has enhanced the efficiency.

Published

2008

6. Thermal quench in HTS double pancake race track coil

Author

Jae-deuk Lee, Young-kil Kwon, Seung-kyu Baik, Eon-yong Lee, Young-chun Kim, Tae-sun Moon, Heui-ju Park, Woon-sik Kwon, Jung-pyo Hong, Monwon Park, Inkeun Yu, and Young-sik Jo

Subjects

High temperature superconductors -- Electric properties, Electric motors -- Design and construction, Thermal analysis, Business, Electronics, Electronics and electrical industries

Abstract

A highly instrumented High Temperature Superconducting (HTS) race track double-pancake coil was prepared for examining the quench development in different operating current. Results suggested that the temperature and voltage variations of the double pancake race-track coils are dependent on the operating current and joule heat.

Published

2007

7. Design and analysis of 1 MW synchronous machine via 3D magnetic field calculation

Author

Seung-Kyu Baik, Young-Kil Kwon, Eon-Young Lee, Jae-Deuk Lee, Jung-Pyo Hong, Yeong-CHun Kim, Tae-Sun Moon, Heui-Joo Park, and Woon-Sik Kwon

Subjects

Magnetic fields -- Measurement, Bismuth -- Electric properties, Business, Electronics, Electronics and electrical industries

Abstract

The design of a 1 MW class superconducting synchronous rotating machine based on 3-dimensional (3D) magnetic field distribution is discussed. The 3D analysis is found to be useful for achieving smaller machine size, higher efficiency and smaller Bi-2223 High Temperature Superconducting (HTS) wire length.

Published

2007

8. Parametric design for superconducting synchronous motor with 3D equivalent magnetic circuit network model

Author

Sang-Ho Lee, Jung-Pyo Hong, Ji-Young Lee, Young-Kil Kwon, Young-Sik Jo, Seung-Kyu Baik, and Jae-Deuk Lee

Subjects

High temperature superconductors -- Design and construction, Circuit design -- Analysis, Circuit designer, Integrated circuit design, Business, Electronics, Electronics and electrical industries

Abstract

The article proposes an effective parametric design for High Temperature Superconducting (HTS) synchronous motors with 3D equivalent magnetic circuit network (EMCN) model.

Published

2007

9. Load Test Analysis of High-Temperature Superconducting Synchronous Motors

Author

Seung-Kyu Baik and Gwan-Soo Park

Subjects

030506 rehabilitation, Materials science, Stator, Superconducting electric machine, Rotor (electric), Counter-electromotive force, Condensed Matter Physics, computer.software_genre, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, 03 medical and health sciences, Load testing, Direct torque control, Control theory, law, 0103 physical sciences, Electrical and Electronic Engineering, 010306 general physics, 0305 other medical science, Synchronous motor, computer, Induction motor

Abstract

The 1-MW and 100-HP superconducting synchronous motors with high-temperature superconducting (HTS) rotor coils were developed and tested. Several electrical parameters, such as load angle and back electromotive force (EMF), are derived from the test result. In the case of the 1-MW motor, the full-load test could not be possible, at 3600-r/min rating speed, due to a vibration problem at the test bed. By using the electrical parameters obtained from the 1800-rpm test results, output power and efficiency characteristics are predicted. The load angle of a synchronous motor, which is generally denoted by δ, is defined as the phase angle difference between the back EMF and the stator terminal voltage. The generated torque is proportional to sin δ, and the maximum torque is generated when this angle is 90°. The superconducting synchronous machine has smaller load angle than a conventional one, due to smaller reactance of the stator coils. Therefore, it has larger maximum torque capacity than the conventional one. The developed motors connected to driving and load induction machines were tested. Through open-circuit test, back-EMF voltages were measured, and load angles were derived from load tests.

Published

2016

10. Electrical Design of a 17 MW Class HTS Motor for Ship Propulsion

Author

Young-Kil Kwon and Seung-Kyu Baik

Subjects

Physics, Superconducting electric machine, Rotor (electric), Counter-electromotive force, Propulsion, Condensed Matter Physics, Field coil, Magnetic flux, Automotive engineering, Electronic, Optical and Magnetic Materials, law.invention, law, Electromagnetic coil, Synchronous motor

Abstract

A superconducting motor shows several advantages, such as smaller size and higher efficiency, over a conventional motor, especially utilized in ship propulsion applications. However, the size reduction merit appears for large capacity, more than several MW. We develop a large capacity synchronous motor with a rotating high-temperature superconducting (HTS) coil, that is aimed to be utilized for ship propulsion, so it has a low rotating speed of about 200 rpm. The ship propulsion motor must generate high electromagnetic torque instead of low speed. Therefore, the rotor (field) coils have to generate a large magnetic flux that results in a large amount of expensive HTS conductor for the field coil. In this paper a 17 MW HTS motor for ship propulsion is designed with a cost-effective method because the HTS conductor cost is a critical factor in the construction of an HTS motor. Unlike conventional rotating machines, the superconducting motor consists of an iron-coreless structure. Most conventional motors can be designed with small error based on two-dimensional magnetic field analysis. However, the superconducting motor shows an even larger error between the two- and three-dimensional based designs. Thus, in order to improve the design accuracy, we have calculated the back electromotive force (EMF) using 3D magnetic field analysis. An output performance evaluation has also been carried out to obtain a design with higher efficiency.

Published

2013

11. Application of Superconducting Magnetic Separation for Condenser Water Treatment in Thermal Power Plant

Author

You-Jin Lee, Seung-Kyu Baik, Jun-Mo Kwon, Myung-Hwan Sohn, Kwang-Soo Han, Rock-Kil Ko, and Dong-Woo Ha

Subjects

Superconductivity, Materials science, Metallurgy, Iron oxide, Magnetic separation, Thermal power station, Superconducting magnet, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Nuclear magnetic resonance, chemistry, Condensed Matter::Superconductivity, Magnet, Water treatment, Electrical and Electronic Engineering, Condenser (heat transfer)

Abstract

Superconducting high gradient magnetic separation (HGMS) has advantages to treat wastewater because it can generate high magnetic field and achieve rapid purification. In this study superconducting HGMS was applied to remove impurities from the condenser water in thermal power plant. The condenser water contained mainly hematite and maghemite and it was highly magnetized than hematite. In the HGMS tests using a 6-T cryo-cooled Nb-Ti superconducting magnet, the turbidity of the condenser water was effectively reduced up to 99.6% and the result showed better performance than that of the 0.5-T permanent magnet test. The higher magnetic field was applied in the range of 1-6T, the more iron oxides were removed. The effect of magnetic filter configuration on the condenser water treatment was also investigated. Consequently superconducting HGMS system can be applicable to remove iron oxide impurities from condenser water in thermal power plant.

Published

2011

12. Nondestructive Measurement of Critical Current Distribution of SmBCO Coated Conductor Using Hall Probe

Author

Seung-Kyu Baik, Sang-Soo Oh, Ho-Sup Kim, Dong-Woo Ha, Rock-Kil Ko, Chan Park, Nam-Jin Lee, Seung-Hyun Moon, Dojun Youm, Hong-Soo Ha, and Tae-Hyung Kim

Subjects

Superconductivity, Materials science, Condensed matter physics, business.industry, Superconducting magnet, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Magnetic field, Conductor, Hall effect, Magnet, Reel-to-reel audio tape recording, Optoelectronics, Electrical and Electronic Engineering, business, Electrical conductor

Abstract

The Hall probe measurement system was used to measure the critical current distribution of superconducting coated conductor. The system consists of reel to reel moving apparatus, 7 array Hall probe, a rotary encoder and permanent magnet. The magnetic field profile across the width of superconducting coated conductor using Bean's critical state model was calculated. The effect of various parameters of the formulas on the magnetic field distribution and the effect of shape and size of artificial defects, which were formed on the surface of SmBa2Cu3O7-d(SmBCO) coated conductor using laser marking system, on the Hall probe magnetic field signal of the Hall probe measurement system was investigated.

Published

2010

13. Purification of Wastewater From Paper Factory by Superconducting Magnetic Separation

Author

Jun-Mo Kwon, Dong-Woo Ha, Tae-Wook Ha, Ho-Sup Kim, Seung-Kyu Baik, Myung-Hwan Sohn, Rock-Kil Ko, Young-Hun Kim, Hong-Soo Ha, Sang-Soo Oh, and Tae-Hyung Kim

Subjects

Superconductivity, Materials science, Metallurgy, Magnetic separation, Superconducting magnet, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Volumetric flow rate, chemistry.chemical_compound, Nuclear magnetic resonance, Wastewater, chemistry, Water treatment, Sewage treatment, Electrical and Electronic Engineering, Magnetite

Abstract

It is environmentally important to recycle the wastewater, since paper factories use a large amount of water and equivalent amount of wastewater is generated. Conventional water treatment facilities like precipitation process need large-scale equipment and wide space to purify the wastewater of paper factory. In case of massive waste water, high gradient magnetic separation (HGMS) parts are more effective to purify it rapidly and to occupy relatively small space, since large voids at filter with HGMS are adopted. In this respect, we prepared two types of superconducting magnets in order to apply HGMS parts for wastewater purification process. We made cryo-cooled Bi-2223 (HTS) superconducting magnet parts with room temperature bore in diameter of 70 mm and 200 mm in height. Also, cryo-cooled Nb-Ti superconducting magnet with room temperature bore in diameter of 100 mm and 600 mm in height was used for magnetic separator. Magnetic filters were designed by the analysis of magnetic field distribution at superconducting magnets. The faster wastewater's flow rate was, the worse the degree of clarity in treated water was. The ability of wastewater treatment in the case of magnetic separation used with 10 of magnetite particles was better than that in the case of 5 of magnetite particles.

Published

2010

14. Study on Homopolar Superconductivity Synchronous Motors for Ship Propulsion Applications

Author

Jung-Pyo Hong, Seung-Kyu Baik, Young-Sik Jo, Young-Kil Kwon, and Sang-Ho Lee

Subjects

Electric motor, Physics, Homopolar motor, Torque motor, Mechanical engineering, Propulsion, Condensed Matter Physics, Field coil, Magnetic flux, Electronic, Optical and Magnetic Materials, Magnetic field, Quantitative Biology::Subcellular Processes, Nuclear magnetic resonance, Condensed Matter::Superconductivity, Electrical and Electronic Engineering, Synchronous motor

Abstract

Superconductivity synchronous motors compared with conventional motors can reduce the motor size and enhance the motor efficiency for low-speed and high torque applications under the space constraints for propulsion system. Especially, homopolar superconductivity synchronous motors (HSSMs) need less superconductor and lower magnetic flux density in superconductor field coil than air-cored superconductivity synchronous motors (ASSMs). In addition, mechanical structure is more simplified and stability is increased because the superconductor field coil of HSSMs is not rotated in operation. In this paper, we present the outline of HSSMs including structure, characteristics and operational principles with the conceptual design of HSSM.

Published

2008

15. Design and Analysis of 1 MW Synchronous Machine via 3D Magnetic Field Calculation

Author

Jung-Pyo Hong, Yeong-Chun Kim, E.Y. Lee, Heui-Joo Park, Jaedeuk Lee, Young-Kil Kwon, Seung-Kyu Baik, Woon-Sik Kwon, and Tae-Sun Moon

Subjects

Superconducting electric machine, Computer science, Superconducting wire, Mechanical engineering, Superconducting magnetic energy storage, engineering.material, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Magnetic circuit, law, Condensed Matter::Superconductivity, Mechanical efficiency, engineering, Equivalent circuit, Electrical and Electronic Engineering, Synchronous motor, Induction motor

Abstract

A 1 MW class superconducting synchronous rotating machine has been designed as a draft based on 2-dimensional (2D) magnetic field distribution considering several conditions such as superconducting wire length, machine efficiency, size and so on. By the way from 2D design it is not possible to consider the effect of end coils and end portions of stator iron yoke especially in superconducting machine with air-cored structure which increases magnetic field difference between 2D and 3D analysis. In this paper electrical design based on the 3D magnetic field distribution is conducted to get more proper design result and reduce design errors from 2D design approach. As the machine has larger capacity, the superconducting machine will show the advantages more and more over the conventional machine. Although the advantages at 1MW rating are not so great, the 3D design approach to get more optimized result would be very helpful for larger superconducting synchronous machine design. Through 3D analysis such as EMCN (equivalent magnetic circuit network) method and Flux-3D FEM (finite element method), we could get smaller machine size, higher efficiency, and smaller Bi-2223 HTS (high temperature superconducting) wire length than the 2D design result. Moreover influence of an important parameter, synchronous reactance, has been analysed on the machine performances such as voltage variation and output power.

Published

2007

16. Thermal Quench in HTS Double Pancake Race Track Coil

Author

Tae-sun Moon, Seung-Kyu Baik, Minwon Park, Woon-sik Kwon, Young-chun Kim, Jung Pyo Hong, In-Keun Yu, Eon-Yong Lee, Heui-ju Park, Young-Sik Jo, Jaedeuk Lee, and Young-Kil Kwon

Subjects

Materials science, Heating element, Nuclear engineering, Superconducting magnetic energy storage, Superconducting magnet, Cryogenics, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Nuclear magnetic resonance, Electromagnetic coil, Thermocouple, Condensed Matter::Superconductivity, Magnet, Water cooling, Electrical and Electronic Engineering

Abstract

In large scale applications, such as SMES, motors and generators, High Temperature Superconducting (HTS) magnets are constructed with many stacks of the double-pancake coils connected in series. In spite of its higher thermal stability, HTS magnet can experience a severe quench, which can resulted from a very small portion. From HTS magnet design point of view, it is very important to predict the possibility of occurrence quench in the designed magnet to provide a suitable quench protection device. In this paper a highly instrumented HTS race track double-pancake coil was prepared to examine the quench development characteristics. It is wound using the Bi-2223 tape. Many voltage taps, cryogenic thermocouples and heater were installed in the winding. Conduction cooling method is adapted for the convenience of temperature. Quench development in the coil was measured under different operating current. The experimental details and results are presented in this paper.

Published

2007

17. Parametric Design for Superconducting Synchronous Motor With 3D Equivalent Magnetic Circuit Network Model

Author

Young-Kil Kwon, Ji-Young Lee, Young-Sik Jo, Sang-Ho Lee, Jae-Deuk Lee, Seung-Kyu Baik, and Jung-Pyo Hong

Subjects

Electric motor, Computer science, Superconducting electric machine, Process design, Counter-electromotive force, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Inductance, Magnetic circuit, law, Control theory, Equivalent circuit, Electrical and Electronic Engineering, Synchronous motor

Abstract

This paper proposes an effective parametric design for high temperature superconducting (HTS) synchronous motors with 3D equivalent magnetic circuit network (EMCN) method. Proposed design process consists of 5 steps which are electric design, mechanical design, characteristic analysis for field and armature, and motor characteristic analysis. Especially, in order to predict the performance of HTS synchronous motors, the variation of output power characteristics according to the variation of back electromotive force (BEMF) and inductance is analysed in electric design. Reliability of proposed design process and developed program is verified through the comparison of the results of commercial program using 3D finite element analysis (FEA) method.

Published

2007

18. Optimal Design of Superconducting Motor to Improve Power Density Using 3D EMCN and Response Surface Methodology

Author

Sung-Il Kim, Jung-Pyo Hong, Young-Kil Kwon, Young-Sik Jo, Myung-Hwan Sohn, Ji-Young Lee, and Seung-Kyu Baik

Subjects

Electric motor, Optimal design, Computer science, Superconducting electric machine, AC power, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Magnetic circuit, Control theory, law, Equivalent circuit, Response surface methodology, Electrical and Electronic Engineering, Synchronous motor

Abstract

This paper proposes an effective design process for 1 MW HTS superconducting motor by using 3-dimensional equivalent magnetic circuit network method (3D EMCN) and response surface methodology (RSM). During the process, 3D EMCN is used with a simplified 3D analysis model to get electric parameters in short time. RSM is used for the motor optimal design to improve power density. The usefulness of this method is verified through the comparison of the performances of the optimal geometry and those of the initial geometry

Published

2006

19. Performance Evaluation of HTS Synchronous Motor Using Finite Element Method

Author

Itsuya Muta, Seung-Kyu Baik, Tae-Sun Moon, Myung-Hwan Sohn, Young-Kil Kwon, and Yeong-Chun Kim

Subjects

Physics, Electric motor, Mechanics, Condensed Matter Physics, Field coil, Finite element method, Electronic, Optical and Magnetic Materials, law.invention, Magnetic field, Nuclear magnetic resonance, Shunt generator, law, Condensed Matter::Superconductivity, Eddy current, Electrical and Electronic Engineering, Synchronous motor, Armature (electrical engineering)

Abstract

A 100 HP rated synchronous motor with superconducting rotating field winding has been designed based on the formulated equations established from 2 dimensional magnetic field distributions in a cylindrical coordinate. The cross-section was drawn based on calculated design results via Fortran program and then modeled with FEM (finite element method) to investigate the machine performances. First of all, the magnetic field distributions are analyzed in many ways according to the field directions and the armature currents. Especially after the rotating field winding is arranged with BSCCO-2223 high-temperature superconducting (HTS) pancake coils, the exerted magnetic field normally on the HTS tape is calculated through FEM. And the machine output power is calculated according to the torque angles that lie between the field and the armature main flux lines. Moreover, this paper includes the eddy-current loss variations of a copper damper located between the field and the armature coils. Finally, 3 dimensional magnetic field distribution is also calculated via FEM. The radial components of magnetic field are compared along the center line of an armature conductor section between 2 dimensional and 3 dimensional results. By the comparison we make sure that about 30% of machine output is added from the end effect of HTS field coil and more accurate design approach is possible.

Published

2004

20. Improved quench characteristics of superconducting racetrack coil via shape modification

Author

Young-Kil Kwon, Myoung-Hwan Sohn, Seung-Kyu Baik, Eun-Yong Lee, Young-Sik Jo, Hae-Jong Kim, and Rock-Kil Ko

Subjects

Physics, Bobbin, Superconducting electric machine, Electric generator, Solenoid, Mechanics, Superconducting magnetic energy storage, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, law, Electromagnetic coil, Magnet, Electrical and Electronic Engineering, Excitation

Abstract

Superconducting racetrack coils have worse quench characteristics due to the different structure from solenoid coils. Racetrack coils also have round curvatures along their end portions; however, a large difference in their structures from solenoid coils exists in the straight portions, which is considered as a cause of the worse performance. In the round portions, there exists strong continuous constraint along the windings against the winding movement via the Lorentz force during coil excitation because of winding tension. On the contrary, in the straight portions, there is almost no constraining. Thus, the windings are apt to move more easily than at the round portions. As a result, especially in the case of a dry magnet, they show worse characteristics than their solenoid counterparts. For the compensation of this mechanism, we propose to improve the quench currents of racetrack coils. We have ground the straight sides of a racetrack coil bobbin into a rounded shape with a negligible effect on coil performance. By experiments, we confirmed that the proposed one had a higher quench current. Moreover, after we applied the proposed idea to the four field coils of an actual 30 kVA superconducting generator, we obtained very good output voltage and current waveforms.

Published

2002

21. Quench current improvement through shape modification of racetrack coil

Author

Young-Kil Kwon, Rock-Kil Ko, Kang-Sik Ryu, Myung-Hwan Sohn, Seung-Kyu Baik, and Young-Sik Jo

Subjects

Physics, Superconducting electric machine, General Physics and Astronomy, Solenoid, Mechanics, Curvature, law.invention, Electromagnetic coil, law, Magnet, Waveform, General Materials Science, Excitation, Voltage

Abstract

Superconducting racetrack coils have different shapes from those of ordinary solenoid coils which have the same curvature along the windings. So they have different or worse performance from the viewpoint of quench characteristics due to the different structures. Racetrack coils also have round curvatures along their end portions; however, the main difference of their structures from solenoid coils exists in the straight portions. It is considered that the worse performance is due to the straight portions. In the round portions, there exists strong continuous constraint along the windings against the movement toward the perpendicular direction during coil excitation. On the contrary, in the straight portions, there is almost no constraining. As a result, especially in the case of dry magnet, they show even worse characteristics than solenoid counterparts. For the compensation of this worse performance, we proposed one idea to improve quench characteristics of racetrack coils. We manufactured one racetrack coil with an ordinary shape and the other with the proposed idea. By experiments we made sure that the proposed one had a higher quench current. Moreover, after we had made an application of the proposed idea to the four field coils of an actual 30 kVA superconducting generator, we could get very good output voltage and current waveforms.

Published

2002

22. Performance Analysis of a Superconducting Motor for Higher Efficiency Design

Author

Sail Park, Ho Min Kim, Seung-Kyu Baik, and Young-Kil Kwon

Subjects

Physics, Superconducting electric machine, Superconducting magnetic energy storage, Condensed Matter Physics, Field coil, AC motor, Automotive engineering, Electronic, Optical and Magnetic Materials, law.invention, Nuclear magnetic resonance, Electromagnetic coil, law, Electrical and Electronic Engineering, Synchronous motor, Induction motor, Electromagnetic propulsion

Abstract

The superconducting motor shows several advantages such as smaller size and higher efficiency against conventional motor especially utilized in ship propulsion application. However, this size reduction merit appears in large capacity more than several MW. We are going to develop a 17-MW class synchronous motor with a rotating HTS (high-temperature superconducting) coil that is aimed to be utilized for ship propulsion, therefore it has a slow rotating speed of about 200 rpm. The ship propulsion motor must generate high electromagnetic torque instead of low-speed. Therefore, the rotor (field) coils have to generate large magnetic flux that results in large amounts of expensive HTS conductor for the field coil. In this paper, a 17-MW HTS motor for ship propulsion is designed with smaller manufacturing cost by HTS field coil length reduction because the HTS conductor cost is a critical factor in the construction cost of an HTS motor. Furthermore, the output performance of the machine is simulated based on the equivalent circuit model of the synchronous motor with back electromagnetic field values from three-dimensional magnetic field calculation. The simulation results are used to design higher efficiency motor.

Published

2013

23. Preparation of Magnetic Fe-Al Binary Oxide and Its Application in Superconducting Magnetic Separation

Author

Dong-Woo Ha, Young-Hun Kim, Rock-Kil Ko, Jun-Mo Kwon, Myung-Hwan Sohn, Seung-Kyu Baik, Hye-Jin Hong, and You-Jin Lee

Subjects

Materials science, Aqueous solution, Chromate conversion coating, Magnetic separation, Iron oxide, Oxide, Sintering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Adsorption, Chemical engineering, chemistry, Magnetic nanoparticles, Electrical and Electronic Engineering

Abstract

Iron oxide is widely used for the adsorption of oxyanion and anionic pollutants in water. Incorporation of aluminum expands available Fe oxide surface that can contact with pollutants because amorphous Al oxide exhibits extremely large surface area with porous morphology. Magnetic Fe-Al binary oxide was prepared by adjusting temperature during sintering of the oxides and investigated the feasibility of the magnetic adsorbent for chromate removal from aqueous solution with permanent and superconducting magnets. The Fe-Al oxide was highly magnetized (31.4 emu/g) after sintering at 500 °C. It is considered that the highly magnetized Fe-Al oxide with comparably large surface area can be a good magnetic adsorbent. The initial chromate solution with the adsorbent had 110 NTU of turbidity. After the superconducting magnetic separation with 0.5, 1, and 4 T, the turbidity of the solution decreased to 31.8, 12.3, and 7.7 NTU, respectively. The Fe-Al oxide is an effective magnetic adsorbent that can not only adsorb anionic pollutants, but also be separated by superconducting magnetic separation system.

Published

2013

24. Optimal Design of Superconducting Motor to Improve Power Density Using 3D EMCN and Response Surface Methodology.

Author

Ji-Young Lee, Sung-Il Kim, Jung-Pyo Hong, Young-Sik Jo, Myung-Hwan Sohn, Seung-Kyu Baik, and Young-Kil Kwon

Subjects

MAGNETIC circuits, RESPONSE surfaces (Statistics), OPTIMAL designs (Statistics), THREE-dimensional imaging, SUPERCONDUCTORS, GEOMETRY

Abstract

This paper proposes an effective design process for 1 MW HTS superconducting motor by using 3-dimensional Equivalent Magnetic Circuit Network Method (3D EMCN) and Response Surface Methodology (RSM). During the process, 3D EMCN is used with a simplified 3D analysis model to get electric parameters in short time. RSM is used for the motor optimal design to improve power density. The usefulness of this method is verified through the comparison of the performances of the optimal geometry and those of the initial geometry. [ABSTRACT FROM AUTHOR]

Published

2006

25. Improved Quench Characteristics of Superconducting Racetrack Coil via Shape Modification.

Author

Seung-Kyu Baik, Myoung-Hwan Sohn, Rock-Kil Ko, Young-Kil Kwon, Hae-Jong Kim, Eun-Yong Lee, and Young-Sik Jo

Subjects

*ELECTRIC coils, *SUPERCONDUCTORS

Abstract

Examines the improvement in the quench characteristics of superconducting racetrack coils. Shape modification; Output voltage and current waveforms of the coils; Quench currents of superconducting generators.

Published

2002

26. Development and test of a 30 kVA superconducting generator.

Author

Myung Hwan Sohn, Doh Young Park, Jong Bo Ahn, Seung Kyu Baik, Young Kil Kwon, Kang Sik Ryu, Yong Joo Kim, Kook Hun Kim, and Itsuya Muta

Published

2000