Model of Cathode Spots Crater Formation and Deuterium Desorption Process on Zirconium Deuterium Electrode

Autor: Xiao Zhang, Jiagang Li, Dmitry L. Shmelev, Lijun Wang, Ming Luo
Rok vydání: 2021
Předmět:
Zdroj: IEEE Transactions on Plasma Science. 49:401-413
ISSN: 1939-9375
0093-3813
DOI: 10.1109/tps.2020.3043092
Popis: In this article, the model including cathode spot process and deuterium desorption process on zirconium deuterium cathode is developed. Five kinds of particle fluxes on cathode surface and three mechanisms affecting deuterium diffusion in cathode are considered. The model not only describes the deformation of cathode metal, but also describes the variation of deuterium concentration with time. On pure zirconium cathode, the mean charge state is larger but on zirconium deuterium cathode, the total ion number density is larger since there are additional deuterium ions, and simulation results show the discharge currents are very close on the two cathodes, the energy flux density on ZrD0.66 cathode is larger so cathode spot crater develops faster on ZrD0.66 cathode. Ablation rates caused by different mechanisms are calculated and the results show in cathode spot development process, mass loss caused by evaporation is ignored, most of the liquid metal will resolidify on cathode surface, and droplets are the main reason for cathode ablation. The ablation rates due to the ejection of droplets are close to experimental results. The ratios of deuterium ion from different mechanisms in this process are also calculated and it is 93.5% in simulation. Simulation results are in agreement with the other researchers’ works.
Databáze: OpenAIRE