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Main Authors: Chemnitz, Tobias, Reiter, Christian, Kraus, Florian, Novog, David
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.14108
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author Chemnitz, Tobias
Reiter, Christian
Kraus, Florian
Novog, David
author_facet Chemnitz, Tobias
Reiter, Christian
Kraus, Florian
Novog, David
contents This paper provides a unique and to the best of our knowledge first-of-a-kind attempt to develop chemical processes that may contribute to the volume reduction of SMR TRISO-based fuels and aims at the eventual ability to reprocess the spent fuel. To this end, the etching behavior of two materials, silicon carbide, SiC and pyrolytic carbon, PyC, that are generally used for the different barrier layers of a TRISO particle has been investigated. Either F/NFx or O radicals were used as etching agents and were obtained from NF3 and molecular O2, respectively, using a microwave plasma generated in a remote plasma source RPS. Laser heating of the sample materials of up to 1200 °C allowed for determination of etching rates. The results of these experiments show that chemical processing of TRISO particles via plasma-assisted etching is possible and complete removal of the encapsulation and TRISO layers can be achieved. Additional research on the waste streams and off-gases, in particular the possibility of introducing intermediate steps to reduce the CO2 formed in the chemical reactions is needed.
format Preprint
id arxiv_https___arxiv_org_abs_2505_14108
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A novel approach to process TRISO nuclear fuel using plasma-aided chemistry
Chemnitz, Tobias
Reiter, Christian
Kraus, Florian
Novog, David
Chemical Physics
This paper provides a unique and to the best of our knowledge first-of-a-kind attempt to develop chemical processes that may contribute to the volume reduction of SMR TRISO-based fuels and aims at the eventual ability to reprocess the spent fuel. To this end, the etching behavior of two materials, silicon carbide, SiC and pyrolytic carbon, PyC, that are generally used for the different barrier layers of a TRISO particle has been investigated. Either F/NFx or O radicals were used as etching agents and were obtained from NF3 and molecular O2, respectively, using a microwave plasma generated in a remote plasma source RPS. Laser heating of the sample materials of up to 1200 °C allowed for determination of etching rates. The results of these experiments show that chemical processing of TRISO particles via plasma-assisted etching is possible and complete removal of the encapsulation and TRISO layers can be achieved. Additional research on the waste streams and off-gases, in particular the possibility of introducing intermediate steps to reduce the CO2 formed in the chemical reactions is needed.
title A novel approach to process TRISO nuclear fuel using plasma-aided chemistry
topic Chemical Physics
url https://arxiv.org/abs/2505.14108