MT25-ProgramBook
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Mon<br />
Mon-Af-Po1.06-03 [85]<br />
Modeling and Analysis of Parasitic Capacitance of High-<br />
Frequency High-Voltage Transformer Using Finite-Element<br />
Method<br />
Le Deng, Tao Peng, Shuang Wang, Fan Jiang, et al.<br />
Wuhan National High Magnetic Field Center, China<br />
Mon-Af-Po1.06-04 [86]<br />
Conceptual Design and Evaluation of a HTS Magnet for a<br />
SMES Used in Improving Transient Performance of a<br />
Grid-Connected PV System<br />
Lei Chen, Hongkun Chen, Jun Yang, Huiwen He, et al.<br />
Wuhan University, China<br />
Mon-Af-Po1.06-05 [87]<br />
Multi-objective filter designing for HTS SMES considering<br />
the voltage distribution characteristic<br />
Shi Jing, Liao Meng and Zhou Aobo<br />
Huazhong University of Science and Technology, China<br />
Mon-Af-Po1.06-06 [88]<br />
Superconducting properties of Prototype Pancake Coil<br />
using MgB2 Cable<br />
Masaru Tomita, Taiki Onji, Atsushi Ishihara, et al.<br />
Railway Technical Research Institute, Japan<br />
Mon-Af-Po1.06-07 [89]<br />
Feasibility Study of MgB2 Cable for Pancake Coil of Energy<br />
Storage Device<br />
Shinya Mizuno, Tsuyoshi Yagai, Okubo Toru, et al.<br />
Sophia University, Tokyo, Japan<br />
Mon-Af-Po1.06-08 [90]<br />
Study on Integral Transformer / Reactor for Improving<br />
Power Density<br />
Su Yong Kim<br />
KETI, Korea<br />
Mon-Af-Po1.06-09 [91]<br />
Step-current method for improving energy storage density<br />
of superconducting magnet<br />
Yalan Huang and Yong Lei<br />
Sichuan University, China<br />
Mon-Af-Po1.06-10 [92]<br />
Dynamic performances analysis for HTS SMES Used in<br />
Power Grid Based on a Novel Field-Circuit Coupled<br />
Method<br />
Zuoshuai Wang, Li Ren, Yuejin Tang, Ying Xu, et al.<br />
Huazhong University of Science and Technology, China<br />
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