Helium refrigerator performance degrades rapidly when it has to handle a varying or pulsed heat load A novel scheme is presented to handle highly pulsed 45 K cryogenic loads with a standard helium refrigerator by isolating it from these pulses The scheme uses a relatively simple arrangement of control valves, heat exchangers, and a storage dewar Applications include pulsed tokamak machines such as TPX (Tokamak Physics Experiment) and ITER (International Thermonuclear Experimental Reactor) For example, the TPX (currently in the conceptual design phase in a DoE contract) requires an average 45 K refrigerator capacity of about 10 kW; however, pulsed loads caused by eddy current and nuclear heating will exceed 100 kW The scheme presented here provides a method for handling these pulsed loads Because of the simple and proven nature of the components involved and the thermodynamic properties of the helium, the system could be implemented for projects such as TPX or ITER with little or no development
CITATION STYLE
Slack, D. (1994). A Novel Scheme to Handle Highly Pulsed Loads with a Standard Helium Refrigerator. In Advances in Cryogenic Engineering (pp. 1223–1229). Springer US. https://doi.org/10.1007/978-1-4615-2522-6_150
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