Oxidative Decontamination of Tritiated Materials Employing Ozone Gas
Authors: Charles A. Gentile, John J. Parker, and Gregory L. Guttadora
Date of PPPL Report: November 2001
Presented at: the 6th International Conference on Tritium Science and Technology held in Tsukuba, Japan, on November 11-16, 2001.
The Princeton Plasma Physics Laboratory has developed a process by which to significantly reduce surface and near surface tritium contamination from various materials. The Oxidative Tritium Decontamination System (OTDS) reacts gaseous state ozone (accelerated by presence of catalyst), with tritium entrained/deposited on the surface of components (stainless steel, copper, plastics, ceramics, etc.), for the purpose of activity reduction by means of oxidation-reduction chemistry. In addition to removing surface and near-surface tritium contamination from (high monetary value) components for reuse in non-tritium environments, the OTDS has the capability of removing tritium from the surfaces of expendable items, which can then be disposed of in a less expensive fashion. The OTDS can be operated in a batch mode by which up to approximately 40 pounds of tritium contaminated (expendable) items can be processed and decontaminated to levels permissible for free release (less than 1,000 dpm/100 cm2). This paper will discuss the OTDS process, the level of tritium surface contamination removed from various materials, and a technique for "deep scrubbing" tritium from subsurface layers.