0000000001274360
AUTHOR
Inesh Kenzhina
Features of the in-situ experiments on studying of tritium release from lithium ceramic Li2TiO3 using vacuum extraction method
Abstract The paper presents the results of reactor experiments with lithium ceramic Li2TiO3 performed at the WWR-K research reactor (Almaty, Kazakhstan). A qualitative analysis of the experimental results is presented. The following general results are obtained from the experiments performed by the vacuum extraction method: • Almost no tritium is released in the form of tritium water vapor, and the processes associated with tritium interaction with water vapor can be excluded from the consideration; • a significant amount of tritium is released as T2 molecule; • in long-term irradiation, a significant growth of tritium release in the form of T2 molecule with the time of irradiation is obser…
Investigation of hydrogen and deuterium impact on the release of tritium from two-phase lithium ceramics under reactor irradiation
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 Li$_{4}$SiO$_{4}$/Li$_{2}$TiO$_{3}$ during reactor irradiation when hydrogen and deuterium are injected into the chamber with irradiated samples. The mechanisms regularities of the tritium yi…
Synthesis of porous indium phosphide with nickel oxide crystallites on the surface
Y. Suchikova, S. Kovachov, I. Bohdanov, І. Bardus show their appreciation to the Ministry of Education and Science of Ukraine for its support, in particular: grant 0122U000129 “Search for Optimal Conditions for the Synthesis of Nanostructures on the Surface of Semiconductors A3B5, A2B6 and Silicon for Photonics and Solar Energy,” and grant 0121U109426 “Theoretical and Methodological Principles of Systemic Fundamentalization of Intended Specialist Training in the Field of Nanophase Materials Science for Productive Professional Activity”.