A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Elastic properties of severely degraded fuels
The decommissioning of nuclear power plants subjected to a nuclear accident is a crucial activity for post-accident recovery and remediation of the affected areas. To achieve this objective, safe and successful removal of the fuel debris is required, but the accomplishment of this task needs the conception, design and construction of adequate tools and new procedures. The Three Mile Island Unit 2 (TMI-2) experience has taught that the success of such operations is related to the fuel debris’ physical and mechanical properties; hence, these properties must be accurately investigated. The present work focuses on the determination of corium’s elastic properties by using acoustic methods. The Young’s modulus was calculated for prototypic corium produced during the FARO experiments at the Joint Research Centre Ispra and for compounds synthesised at the Joint Research Centre Karlsruhe; the acoustic microscopy was also applied to corium samples extracted from the TMI-2 nuclear reactor, and to “lava” sampled at the Chernobyl facility. The study shows a slight decrease in Young’s modulus caused by the increase in zirconia content for the prototypic corium and comparable values in the case of TMI-2 core rocks. In this scenario, the specimen of Chernobyl brown lava constitutes an exception due to its different composition compared to prototypical corium or the In-Vessel accident corium. ; JRC.G.III.8-Waste Management
Elastic properties of severely degraded fuels
The decommissioning of nuclear power plants subjected to a nuclear accident is a crucial activity for post-accident recovery and remediation of the affected areas. To achieve this objective, safe and successful removal of the fuel debris is required, but the accomplishment of this task needs the conception, design and construction of adequate tools and new procedures. The Three Mile Island Unit 2 (TMI-2) experience has taught that the success of such operations is related to the fuel debris’ physical and mechanical properties; hence, these properties must be accurately investigated. The present work focuses on the determination of corium’s elastic properties by using acoustic methods. The Young’s modulus was calculated for prototypic corium produced during the FARO experiments at the Joint Research Centre Ispra and for compounds synthesised at the Joint Research Centre Karlsruhe; the acoustic microscopy was also applied to corium samples extracted from the TMI-2 nuclear reactor, and to “lava” sampled at the Chernobyl facility. The study shows a slight decrease in Young’s modulus caused by the increase in zirconia content for the prototypic corium and comparable values in the case of TMI-2 core rocks. In this scenario, the specimen of Chernobyl brown lava constitutes an exception due to its different composition compared to prototypical corium or the In-Vessel accident corium. ; JRC.G.III.8-Waste Management
Elastic properties of severely degraded fuels
MARCHETTI MARA (author) / LAUX DIDIER (author) / SEIBERT ALICE (author) / BOTTOMLEY PAUL (author) / WISS THIERRY (author) / RONDINELLA VINCENZO (author) / DESPAUX GILLES (author)
2019-08-27
Miscellaneous
Electronic Resource
English
DDC:
690
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