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Investigation of hydrogen and deuterium impact on the release of tritium from two-phase lithium ceramics under reactor irradiation

Timur Kulsartov, Yergazy Kenzhin, Regina Knitter, Gunta Ķizāne, Yevgen Chikhray, Asset Shaimerdenov, Saulet Askerbekov, Assyl Akhanov, Inesh Kenzhina, Zhanna Zaurbekova, Artūrs Zariņš, Darkhan Sairanbayev, Yuriy Gordienko, Yuriy Ponkratov

2022Nuclear Materials and Energy21 citationsDOIOpen Access PDF

Abstract

In the development of fusion energy, an important task is the study and improvement of tritium production technologies. In this case, one of the most promising materials for tritium generation is lithium ceramics. Considering the importance of the task, numerous studies are aimed at solving the problem of determining the parameters and mechanisms of tritium release in lithium-containing materials. This paper presents the results of a study of tritium release processes from two-phase lithium ceramics of Li4SiO4/Li2TiO3 during reactor irradiation when hydrogen and deuterium are injected into the chamber with irradiated samples. The mechanisms regularities of the tritium yield process in the presence of these isotopes were established. The experiments were carried out in the WWR-K research reactor at a neutron flux density of 5∙1013n/cm2∙s and sample temperatures from 650 to 700 °C.

Topics & Concepts

TritiumLithium (medication)Fusion powerDeuteriumRadiochemistryHydrogenIrradiationMaterials scienceCeramicNeutron fluxIsotopes of lithiumPhase (matter)Nuclear engineeringResearch reactorNeutronNuclear physicsChemistryPlasmaIonIon exchangeComposite materialPhysicsMedicineOrganic chemistryEngineeringEndocrinologyFusion materials and technologiesParticle accelerators and beam dynamicsMuon and positron interactions and applications
Investigation of hydrogen and deuterium impact on the release of tritium from two-phase lithium ceramics under reactor irradiation | Litcius