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Issue title: ICANS-XXIII, hosted by the Oak Ridge National Laboratory Neutron Sciences Directorate
Guest editors: Kenneth W. Herwig and Erik B. Iverson
Article type: Research Article
Authors: Kirichek, O.; * | Lawson, C.R. | Draper, G.L. | Jenkins, D.M. | Haynes, D.J. | Lilley, S.
Affiliations: SIS Facility, STFC, Rutherford Appleton Laboratory, Harwell, Didcot, UK. E-mail: [email protected]
Correspondence: [*] Corresponding author. E-mail: [email protected].
Abstract: The unique properties of solid methane enable the conversion of hot, energetic neutrons into cold neutrons, with an efficiency approximately 3.5 times that of liquid hydrogen based moderators. However, practical applications of solid methane in neutron moderators turned out to be much more challenging than initially expected. Exposure of solid methane at low temperatures to neutron radiation leads to a build-up of radiolysis products in the solid methane matrix. Accumulation of defects beyond some critical number can result in a spontaneous self-accelerated recombination process, which in combination with the expansion of hydrogen built up in bulk solid methane during irradiation, was believed to be responsible for the moderator’s breakdown. Here we present results of our thermodynamic model, based on the theory of thermal explosion. Our model agrees well with the test data obtained using methane moderators developed at the IPNS neutron source, based at Argonne National Laboratory and the data acquired during commissioning of the ISIS Target Station 2 solid methane moderator. We also discuss the products of radiolysis reactions generated by exposure of the condensed methane to neutron radiation. The succession of radiolysis reactions may lead to the production of long chain hydrocarbons, which can contaminate the moderator system and significantly reduce efficiency of the heat-exchanger. The possible solutions for cleaning moderators using targeted solvents are considered. In the conclusion we give some practical recommendations, based on our simulation results and operational experience.
Keywords: Neutron moderator, solid methane, radiolysis
DOI: 10.3233/JNR-190132
Journal: Journal of Neutron Research, vol. 22, no. 2-3, pp. 281-286, 2020
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