Development of Highly Effective Cooling Technology for a Superconducting Magnet Using Cryogenic OHP

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 H(2), Ne, and N(2) as working fluids have been developed and tested at the operating temperature ranges of 17-25 K (H(2)), 26-32 K (Ne), and 67-80K (N(2)). The measured effective thermal conductivities were reached to 500-3,000 W/m . K (H(2)), 1,000-8,000 W/m . K(Ne) and 10,000-18,000 W/m . K (N(2)). The high thermal transport properties of the cryogenic OHP and its application as the cooling components of superconducting magnets are also discussed.