Title :
Development of Highly Effective Cooling Technology for a Superconducting Magnet Using Cryogenic OHP
Author :
Mito, Toshiyuki ; Natsume, Kyohei ; Yanagi, Nagato ; Tamura, Hitoshi ; Tamada, Tsutomu ; Shikimachi, Koji ; Hirano, Naoki ; Nagaya, Shigeo
Author_Institution :
Nat. Inst. for Fusion Sci., Gifu, Japan
fDate :
6/1/2010 12:00:00 AM
Abstract :
A highly effective cooling technique for a superconducting magnet is proposed by incorporating the cryogenic oscillating heat pipes (OHP) as cooling panels in the coil windings. The OHP is a high performance two-phase heat transfer device, which can transport several orders of magnitude larger heat loads than heat conduction of solids. The cryogenic OHP using , Ne, and as working fluids have been developed and tested at the operating temperature ranges of 17-25 K (H2), 26-32 K (Ne), and 67-80 K (N2). The measured effective thermal conductivities were reached to 500-3,000 W/m ?? K (H2), 1,000-8,000 W/m ?? (Ne) and 10,000-18,000 W/m ?? K (N2). The high thermal transport properties of the cryogenic OHP and its application as the cooling components of superconducting magnets are also discussed.
Keywords :
cryogenics; heat pipes; magnetic cooling; superconducting coils; superconducting device testing; superconducting magnets; thermal conductivity; cryogenic oscillating heat pipes; effective thermal conductivity; high performance two-phase heat transfer device; highly effective cooling; operating temperature; superconducting coil winding; superconducting device testing; superconducting magnet; temperature 17 K to 25 K; temperature 26 K to 32 K; temperature 67 K to 80 K; Cooling technology; HTS; cryogenic; oscillating heat pipe (OHP); superconducting magnet;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2010.2043724
