Type of Publication
Year of Publication
2009
Authors

H. Tatsumoto; T. Aso; T. Kato; K. Ohtsu; S. Hasegawa; F. Maekawa; M. Futakawa

Abstract

As one of the main experimental facilities in J-PARC, an intense spallation neutron source (JSNS) driven by a 1-MW proton beam selected supercritical hydrogen at a temperature of 20 K and a pressure of 1.5 MPa as a moderator material. Moderators are controlled by a cryogenic hydrogen system that has a hydrogen relief system, which consists of high and low pressure stage of manifolds, a hydrogen vent line and a stack, in order to release hydrogen to the outside safely. The design of the hydrogen vent line should be considered to prevent purge nitrogen gas in the vent line from freezing when releasing the cryogenic hydrogen, to prevent moisture in the stack placed in an outdoor location from freezing, and to inhibit large piping temperature reduction at a building wall penetration. In this work, temperature change behaviors in the hydrogen vent line were analyzed by using a CFD code, STAR-CD, We determined required sizes of the vent line based on the analytical results and its layout in the building. (C) 2008 Elsevier B.V. All rights reserved.

DOI

10.1016/j.nima.2008.11.042

Volume

600

Notes

Times Cited: 0 0

Pagination

269-271

Number
1
ISSN Number

0168-9002