Cryostat for Superconducting Devices

1 . A cryostat for a superconducting device, comprising a tank for containing a cryogenic coolant and superconducting device, insulated with a first, non-vacuum thermal insulation material, and comprising at least one cavity extending through the tank insulated with a second, vacuum insulation around the cavity. 2 . A cryostat according to claim 1 wherein the first thermal insulation material comprises a foam insulation material. 3 . A cryostat according to claim 2 wherein the first thermal insulation material comprises an expanded foam insulation material. 4 . A cryostat according to claim 1 wherein the cavity through the tank is defined by an inner wall and an outer wall of the vacuum insulation. 5 . A cryostat according to claim 4 wherein the inner wall and outer wall of the vacuum insulation comprise concentric sleeves. 6 . A cryostat according to claim 4 wherein the inner wall and outer wall of the vacuum insulation comprise glass walls. 7 . A cryostat according to claim 1 wherein the first insulation has a thermal conductivity averaged over the temperature range 77 K to 300 K of less than about 0.03 W/mK. 8 . A cryostat according to claim 1 wherein the first insulation has a thickness of not less than about 400 mm. 9 . A cryostat according to claim 1 wherein the vacuum insulation has an effective thermal conductivity of less than about 0.003 W/mK. 10 . A cryostat according to claim 1 wherein the vacuum insulation has an average thickness between about 5 and about 25 mm. 11 . A cryostat according to claim 1 wherein the second, vacuum insulation around the cavity includes a radiative insulation layer with a break to avoid a conducting path encircling the cavity. 12 . A cryostat according to claim 1 wherein the tank comprises a tank base and a tank lid. 13 . A cryostat according to claim 12 wherein the cavity extending through the tank extends between the tank base and tank lid. 14 . A cryostat according to claim 1 wherein the superconducting device comprises a coil around the cavity within the tank, with an associated core passing through the cavity. 15 . A cryostat according to claim 1 wherein the superconducting device comprises a three phase transformer, and the cryostat comprises three said vacuum insulated cavities extending through the tank each with transformer coils around the cavity within the tank and a core for each transformer phase passing through the cavity. 16 . A cryostat according to claim 1 wherein the superconducting device comprises a current limiting device. 17 . A superconducting coil and cryostat comprising a tank containing the coil and a cryogenic coolant within a foam insulation, and vacuum insulated cavity through the coil. 18 . A superconducting coil and cryostat according to claim 17 wherein the vacuum insulated cavity is defined by inner and outer concentric sleeves. 19 . A cryostat according to claim 18 wherein the concentric sleeves comprise glass sleeves. 20 . A cryostat according to claim 18 wherein one or both of the concentric sleeves includes a radiative insulation layer with a break to avoid a conducting path around the cavity. 21 . A cryostat according to claim 17 wherein the tank is defined by a tank base and a tank lid and the cavity extends through the tank between the tank base and tank lid and a core associated with the coil passes through the cavity. 22 . A cryostat comprising a tank of a relatively thin walled outer material lined with a relatively thicker walled inner foam insulation material, and comprising vacuum insulated cavity extending through the tank, the vacuum insulation having a thinner wall section than the thickness of the foam insulation material.