Title :
Design and Manufacture of the Conduction Cooled Torus Coils for The Jefferson Laboratory 12-GeV Upgrade
Author :
Wiseman, M. ; Elementi, L. ; Elouadhiri, L. ; Gabrielli, G. ; Gardner, T.J. ; Ghoshal, P.K. ; Kashy, D. ; Kiemschies, O. ; Krave, S. ; Makarov, A. ; Robotham, B. ; Szal, J. ; Velev, G.
Author_Institution :
Thomas Jefferson Nat. Accel. Facility, Newport News, VA, USA
Abstract :
The design of the 12-GeV torus required the construction of six superconducting coils with a unique geometry required for the experimental needs of Jefferson Laboratory Hall B. Each of these coils consists of 234 turns of copper-stabilized superconducting cable conduction cooled by 4.6 K helium gas. The finished coils are each roughly 2 × 4 × 0.05 m and supported in an aluminum coil case. Because of its geometry, new tooling and manufacturing methods had to be developed for each stage of construction. The tooling was designed and developed while producing a practice coil at Fermi National Laboratory. This paper describes the tooling and manufacturing techniques required to produce the six production coils and two spare coils required by the project. Project status and future plans are also presented.
Keywords :
cooling; copper alloys; design engineering; superconducting cables; superconducting coils; Cu; Jefferson laboratory hall B; Jefferson laboratory upgrade; aluminum coil; conduction cooled torus coils; copper-stabilized superconducting cable conduction; electron volt energy 12 GeV; helium gas; manufacturing methods; production coils; superconducting coils; temperature 4.6 K; tooling methods; torus design; Aluminum; Coils; Conductors; Copper; Insulation; Superconducting magnets; Windings; Coil; SSC cable; Superconducting magnet; coil; epoxy potting; fabrication; superconducting magnet; torus;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2376964
