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Design Progress of Cryogenic Hydrogen System for China Spallation Neutron Source

Type of Publication
Year of Publication
2014
Authors

G.P. Wang; Y. Zhang; J. Xiao; C.C. He; M.Y. Ding; Y.Q. Wang; N. Li; K. He

Abstract

China Spallation Neutron Source (CSNS) is a large proton accelerator research facility with 100 kW beam power. Construction started in October 2011 and is expected to last 6.5 years. The cryogenic hydrogen circulation is cooled by a helium refrigerator with cooling capacity of 2200 W at 20 K and provides supercritical hydrogen to neutron moderating system. Important progresses of CSNS cryogenic system were concluded as follows. Firstly, process design of cryogenic system has been completed including helium refrigerator, hydrogen loop, gas distribution, and safety interlock. Secondly, an accumulator prototype was designed to mitigate pressure fluctuation caused by dynamic heat load from neutron moderation. Performance test of the accumulator has been carried out at room and liquid nitrogen temperature. Results show the accumulator with welding bellows regulates hydrogen pressure well. Parameters of key equipment have been identified. The contract for the helium refrigerator has been signed. Mechanical design of the hydrogen cold box has been completed, and the hydrogen pump, ortho-para hydrogen convertor, helium-hydrogen heat exchanger, hydrogen heater, and cryogenic valves are in procurement. Finally, Hydrogen safety interlock has been finished as well, including the logic of gas distribution, vacuum, hydrogen leakage and ventilation. Generally, design and construction of CSNS cryogenic system is conducted as expected.

DOI

10.1063/1.4860854

Volume

1573

Notes

Times Cited: 0 Weisend, JG Breon, S Demko, J DiPirro, M Fesmire, J Kittel, P Klebaner, A Marquardt, J Nellis, G Peterson, T Pfotenhauer, J Yuan, S Zagarola, M Zeller, A Joint Conference of the Transactions of the Cryogenic Engineering Conference (CEC) / Transactions of the International Cryogenic Materials Conference Jun 17-21, 2013 Anchorage, AK Air Liquide; Burkert Fluid Control Syst; Cryomech Inc; DeMaCo; Linde; Lydall; Meyer Tool & Mfg Inc; PHPK Technologies; SuperPower Inc 978-0-7354-1202-6

Pagination

1285-1290

ISSN Number

0094-243X

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