Open AccessProcurement and commissioning of the CHL refrigerator at CEBAF
Author(s) -
W. C. Chronis,
D. Arenius,
B. Bevins,
V. Ganni,
D. Kashy,
M. M. Keesee,
Tim Reid,
J. D. Wilson
Publication year - 1996
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/270822
Subject(s) - refrigeration , refrigerator car , gas compressor , nuclear engineering , cold storage , helium , cryostat , cryogenics , liquid helium , subcooling , environmental science , engineering , physics , mechanical engineering , heat transfer , thermodynamics , superconductivity , atomic physics , quantum mechanics , horticulture , biology
The CEBAF Central Helium Liquefier (CHL) provides 2K refrigeration to the 338 superconducting niobium cavities in two 400 MeV linacs and one 45 MeV injector. The CHL consists of three first stage and three second stage compressors, a 4.5K cold box, a 2K cold box, liquid and gaseous helium storage, liquid nitrogen storage, and transfer lines. Figure 1 presents a block diagram of the CHL refrigerator. The system was designed to provide 4.8 kW of primary refrigeration at 2K, 12 kW of shield refrigeration at 45K for the linac cryomodules, and 10 g/s of liquid flow for the end stations. In April 1994, stable 2K operation of the previously uncommissioned cold compressors was achieved. The cold compressors are a cold vacuum pump with an inlet temperature of circa 3.0K. These compressors operate on magnetic bearing,s and therefore eliminate the possibility of contamination due to any air leaks into the system. Operational data and commissioning experience as they relate to the warm gaseous helium compressors, turbines, instrumentation and control, and the cold compressors are presented
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