Grant-in-Aid for Scientific Research (A)
|Research Institution||YOKOHAMA NATIONAL UNIVERSITY|
TSUKAMOTO Osami FACULTY OF ENGINEERING,YOKOHAMA NATIONAL UNIVERSITY,PROFESSOR, 工学部, 教授 (30017975)
宮下 克巳 日立電線(株), システムマテリアル研究所, 第一部研究員
AMEMIYA Naoyuki FACULTY OF ENGINEERING,YOKOHAMA NATIONAL UNIVERSITY,ASSISTANT PROFESSOR, 工学研究科, 助教授 (10222697)
宮下 克己 日立電線(株), システムマテリアル研究所, 第一部研究員
MIYASHITA Katsumi SYSTEM MATERIAL LAB., HITACHI CABLE,Researcher
|Project Fiscal Year
1994 – 1996
Completed(Fiscal Year 1996)
|Budget Amount *help
¥10,200,000 (Direct Cost : ¥10,200,000)
Fiscal Year 1996 : ¥1,900,000 (Direct Cost : ¥1,900,000)
Fiscal Year 1995 : ¥3,700,000 (Direct Cost : ¥3,700,000)
Fiscal Year 1994 : ¥4,600,000 (Direct Cost : ¥4,600,000)
|Keywords||AC SUPERCONDUCTING COIL / NB3SN AC SUPERCONDUCTING CABLE / NB7I AC CABLE / SUPERCONDUCTING FILAMENT / AC DEGRADATION PHENOMENON / MAGNETIC INSTABILITY / QUENCH / 交流超電導コイル / Nb3Sn交流超伝導線 / NbTi交流線 / 超伝導フィラメント / 交流劣化現象 / 磁気的不安定性 / クニンチ / 交流超伝導コイル / クエンチ / 2.5T交流超伝導マグネット / 交流通電損失 / 交流通電安定性 / 交流超伝導機器 / 交流超伝導線 / 位相差|
This fiscal year formulated the design technique of AC Superconductor that collected the research result so far in the last fiscal year of a plan for 3 years, and it responded with the classification of the application apparatus which is the last purpose of this research.
The cases (High magnetic-field application, Full superconducting generator, etc.) where the peak magnetic field of the external magnetic field to which a line is exposed is more than it, and in not more than (Low magnetic-field application : transformer, Current-limiter, etc.) it, application apparatus can be divided if it stands on the viewpoint of a design of an alternating-current super-conduction line.
Moreover, it can divide by low alternating-current loss priority or stability priority.
The design technique of the line material which was suitable for each according to the classified these apparatus was clarified.
Hereafter, the contents are summarized.
(1) Stabilization to magnetic instability
First, the conditions wh
ich do not cause the magnetic instability to a self-magnetic field were searched for, and the validity was verified by the experiment.
Stable conditions were decided by the thickness of the filament domain of line section, critical current density, and the temperature margin, and the stabilization design of a line was attained according to the purpose.
(2) Clarification of the reduction technique of AC loss
In the high magnetic field, the loss resulting from the self-magnetic field and the external length magnetic field accompanied by transport is superior, and detailed-izing of the diameter of the filament and little-izing of the winding pitch which have been conventionally pursued in an AC superconductor.
In a low magnetic field the loss resulting from the self-magnetic field and the external length mangetic field accompanied by transport current is superior and detailed-izing of the diameter of a filament is not necessarily important.
Moreover, although seldom known conventionally, it found out that little-izing of a winding pitch was also effective in loss reduction.
By giving external magnetic-field conditions, the line design conditions which make loss by the low magnetic field the minimum were become clear.
(3) Stabilization to mechanical disctrbance
The relation with the occupancy area and the arrangement in the section of stabilization copper which governs loss and stability to mechanical discurbance is clarified, and it enabled it to have grasped trade-off of stability and loss quantitatively.
The details of the above result were summarized as the report. Less