Abstract
We have investigated analyses of stability and thermal performance of internally forced cooled superconductor, and from the results of these analyses we proposed a new type forced cooled superconductor, which has composite hydraulic channels in the cables in parallel with more open flow channels of much greater hydraulic diameter. We designed and developed a forced cooled Nb 3Sn superconductor with dual composite hydraulic channels for 10 kA, 10 T, and 4.5 K. A numerical analysis has been carried out of the stability and thermal performance for this forced cooled Nb 3Sn superconductor with dual composite hydraulic channels under 10 T and 4.5 K. From this analysis this superconductor predicts the quite well transient stability margin at 10 T, 4.5 K, and 10 kA.
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