Atmospheric Detritiation System Performance
- 1 March 1989
- journal article
- research article
- Published by Taylor & Francis in Fusion Technology
- Vol. 15 (2P2B) , 1331-1336
- https://doi.org/10.13182/fst89-a39873
Abstract
An investigation of the performance of atmospheric detritiation systems and of possible ways for improving their performance was undertaken. Small-scale experiments demonstrated that system performance is strongly dependent on catalyst bed temperature. That may be helped by addition of protium to the process gas stream, but added protium at constant temperature does not increase conversion to HTO. Collection of the HTO on dry sieve with residual HTO fraction of less than one part in 107 was observed. Ways suggested for improvement in collection of HTO on molecular sieve beds include adding H2O to the stream entering the molecular sieve and premoistening of the sieve with H2O. While these improvement schemes may reduce HTO emissions they increase the amount of tritiated waste that must be handled.Keywords
This publication has 7 references indexed in Scilit:
- Catalyst Study for the Decontamination of Glove-Box Atmospheres Containing Tritium at MPC LevelsFusion Technology, 1988
- Recovery of Tritium in Room Air by Precious Metal Catalyst with Hydrophilic SubstrateJournal of Nuclear Science and Technology, 1988
- The water-forming reaction on palladiumSurface Science, 1985
- Early Operating Experience with the Tritium Systems Test Assembly Tritium Waste Treatment SystemFusion Technology, 1985
- Removal of Tritiated Water Vapor by Adsorption on Molecular Sieves - Effects of Co-Existing H2OFusion Technology, 1985
- Some Basic Studies on Tritium Processing in CTR Solid BlanketNuclear Technology - Fusion, 1983
- A molecular-beam investigation of the reaction H2 + O2 → H2O on Pd(111)Surface Science, 1979