AP: Large Scale System Applications
-December 4
Dec. 4 (Wed.)Large Scale System Applications Special Exhibition Hall A
Electric power and industry 1
Chairpersons: Tabea Arndt (Karlsruhe Institute of Technology) and Satoshi Fukui (Niigata University)
AP3-1-INV10:35–11:00
Large Scale HTS Systems and Value Propositions
*Tabea Arndt1,2
Siemens AG, Germany1
Karlsruhe Institute of Technology KIT, Germany2
AP3-211:00–11:15
Development of a 20kV/400A Resistive Type DC Superconducting Fault Current Limiting Module
*Tao Ma1, Shaotao Dai1, Yuan Cai2, Lei Hu1, Bangzhu Wang1, Teng Zhang1
School of Electrical Engineering, Beijing Jiaotong University1
Suzhou New Material Research Institute2
AP3-311:15–11:30
Heat leak of cryogenic pipe for superconducting dc power transmission line
*Sataro Yamaguchi1, Masae Kanda1, Yury Ivanov1
Chubu University1
AP3-4-INV11:30–11:55
Development of Test Device for Aluminum Metal Melting by Induction Heating Using DC HTS Coils
*Satoshi Fukui1, Jun Ogawa1, Tomonori Watanabe2, Shigeo Nagaya2, Mitsuho Furuse3
Niigata University1
Chubu Electric Power Co., Inc.2
National Institute of Advanced Industrial Science and Technology3
AP3-511:55–12:10
Development of the 1 MW Superconducting Induction Heater
*Shaotao Dai1, Tao Ma1, Zhiyong Hong3, Guozhong Jiang2, Lei Hu1, Chao Li4, Bangzhu Wang1, Teng Zhang1
School of Electrical Engineering, Beijing Jiaotong University1
Jiangxi Lianchuang Optoelectronic Technology Co., Ltd.2
Shanghai Superconductor Technology Co., Ltd.3
Western Superconducting Technologies Co., Ltd.4
Magnets 2
Chairpersons: Michael Parizh (GE Global Research) and Shun Tonooka (Mitsubishi Electric)
AP4-1-INV13:30–13:55
Conductor for MRI magnets
*Michael Parizh1
GE Global Research1
AP4-2-INV13:55–14:20
Development of A Half Size 3T REBCO Superconducting Magnet for MRI
*Shoichi Yokoyama1
Mitsubishi Electric Corp.1
AP4-3-INV14:20–14:45
A Quench of an 800-MHz HTS Insert (H800)
*Yukikazu Iwasa1, Dongkeun Park1, Juan Bascuñàn1, Philip C. Michael2
Francis Bitter Magnet Laboratory/Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, U. S. A.1
Plasma Science & Fusion Center, Massachusetts Institute of Technology, Cambridge, U. S. A.2
IEA special session
Chairpersons: Hiroyuki Ohsaki (The University of Tokyo) and Ataru Ichinose (Central Research Institute of Electric Power Industry)
AP5-1-INV14:55–15:10
Shingal Project ; The 1st Commercial Application of 23 kV HTS Power Cable System in Korea
*Chulhyu Lee1, Hyukchan Son1, Cheol-hwi Ryu2
Korea Electric Power Corp. S. Korea1
LS Cable & System Ltd. S. Korea2
AP5-2-INV15:10–15:25
ComEd superconductor cable project in Chicago and vision for the technology
*Daniel P Brotzman1, Jim Maguire2
ComEd1
AMSC2
Panel Discussion (IEA special session)
15:25-16:10
Thema: why utilities chose HTS solutions in the grid?
Panelists:
Chulhyu Lee, Korea Electric Power Corp. S. Korea
Daniel P Brotzman, ComEd. USA
Hideo Ishii, Waseda University Japan
Kazuhiko Hayashi, Sumitomo Electric Industries, Ltd. Japan
*Hiroyuki Ohsaki, The Univesity of Tokyo Japan
*Moderator
Rotating machines 1
Chairpersons: Minwon Park (Changwon National University) and Taketsune Nakamura (Kyoto University)
AP6-0-INV16:20–16:45
Efficient cryogenic cooling methods for HTS (High Temperature Superconductor) applications; from stationary cooler to moving HTS coils
*Sangkwon Jeong1, Bokeum Kim1
Cryogenic Engineering Laboratory, Department of Mechanical Engineering, KAIST (Korea Advanced Institute of Science and Technology), Daejeon, Republic of Korea1
AP6-1-INV16:45–17:10
Superconducting Power Generators for Offshore Wind Turbines
*Quan Li1, Kevin Kails1, Jacky Hong1
University of Edinburgh1
AP6-2-INV17:10–17:35
EcoSwing – Development, test, installation, and commissioning of a 3 MW superconducting wind power generator
*Markus Bauer1
THEVA Dünnschichttechnik GmbH1
AP6-3-INV17:35–18:00
Current Status and Future Expectation of HTS Rotating Machines in Korea
*Minwon Park1
Changwon National University1
AP6-4 18:00–18:15
Development of Hydrogen Supply and Exhaust System for Liquid Hydrogen Cooled Superconducting Rotating Machine
*Yasuyuki Shirai1, Yoshiki Iwami1, Shintaro Hara1, Taito Matsumoto1, Masahiro Shiotsu1, Hiroaki Kobayashi2, Yoshihiro Naruo2, Satoshi Nonaka2, Yoshifumi Inatani2, Hirokazu Hirai3, Seiichiro Yoshinaga4, Teiichi Tanaka5
Kyoto university1
JAXA2
Taiyo Nippon Sanso, Ltd.3
IHI4
National Institute of Technology, Kumamoto College5