Development of an Optimization Program for a 2G HTS Conductor Design Process
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Kim, K.L.
(Department of Materials Science and Engineering, Korea University)
Hwang, S.J. (Department of Materials Science and Engineering, Korea University) Hahn, S. (Francis Bitter Magnet Laboratory, MIT) Moon, S.H. (Superconductor, Nano & Advanced Materials Corporation) Lee, H.G. (Department of Materials Science and Engineering, Korea University) |
1 | Y. Iwasa, 2009 Case Studies in Superconducting Magnets - Design and Operational Issues 2nd edn (New York : Springer). |
2 | Y. Isawa, and S. Hahn, "Development of Optimization Design Techniques of Superconducting Coils for HTS Power Devices, Phase II: 2G Conductor Optimization with Protection of HTS Coils," MIT Francis Bitter Magnet Laboratory Annual Report, Cambridge, MA, 2010. |
3 | S. J. Hwang, "Development of a Numerical Program for 2G HTS Conductor Optimization," Master's Thesis, Korea University, Korea, 2010. |
4 | H.H.J. ten Kate, H. Boschamn, and L.J.M. van de Klundert, "Longitudinal propagation velocity of the normal zone in superconducting wires," IEEE Trans. Magn. MAG-23, pp. 1557, 1987. |
5 | K. Funaki, K. Ikeda, M. Takeo, K. Yamafuji, J. Chicaba, and F. Irie, "Normal-zone propagation inside a layer and between layers in a superconducting coils," IEEE Trans. Magn. MAG-23, pp. 1561, 1987. |
6 | Available from: http://www.superpower-inc.com. |
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