Hydrogen isotope exchange at the surface of C-W mixed material layer on tungsten by gas exposure

“…Such high temperatures are quite risky for the fusion reactors. In our previous experimental study [30], it is found that HI exchange could decrease the temperature of T desorption in C-W mixed materials. It means the combination of thermal desorption and HI exchange can achieve a synergistic enhancement in T removal efficiency.…”

“…Schwarz-Selinger and Alimov et al [23,24] implanted D and H plasma sequentially into W. They observed strong isotope exchange appeared near the W surface at room temperature, while extended to all depths at elevated temperatures, achieving up to 90% removal efficiency. In our previous study [30], the T and D gas exposure was performed for C-W mixed materials. It is found that T desorption decreased significantly at the high-temperature stage, indicating the T retained in the strong TS sites was exchanged by D. In addition, some researchers have also theoretically confirmed the feasibility of HI exchange using micro-scale theoretical calculations [31][32][33][34][35][36][37][38][39].…”

“…Several excellent experimental studies have demonstrated that isotope exchange can effectively remove retained HIs [21][22][23][24][25][26][27][28][29][30]. Schwarz-Selinger and Alimov et al [23,24] implanted D and H plasma sequentially into W. They observed strong isotope exchange appeared near the W surface at room temperature, while extended to all depths at elevated temperatures, achieving up to 90% removal efficiency.…”

Mechanism of hydrogen isotope exchange for tritium removal in plasma-facing materials: a multi-scale investigation

“…Such high temperatures are quite risky for the fusion reactors. In our previous experimental study [30], it is found that HI exchange could decrease the temperature of T desorption in C-W mixed materials. It means the combination of thermal desorption and HI exchange can achieve a synergistic enhancement in T removal efficiency.…”

“…Schwarz-Selinger and Alimov et al [23,24] implanted D and H plasma sequentially into W. They observed strong isotope exchange appeared near the W surface at room temperature, while extended to all depths at elevated temperatures, achieving up to 90% removal efficiency. In our previous study [30], the T and D gas exposure was performed for C-W mixed materials. It is found that T desorption decreased significantly at the high-temperature stage, indicating the T retained in the strong TS sites was exchanged by D. In addition, some researchers have also theoretically confirmed the feasibility of HI exchange using micro-scale theoretical calculations [31][32][33][34][35][36][37][38][39].…”

“…Several excellent experimental studies have demonstrated that isotope exchange can effectively remove retained HIs [21][22][23][24][25][26][27][28][29][30]. Schwarz-Selinger and Alimov et al [23,24] implanted D and H plasma sequentially into W. They observed strong isotope exchange appeared near the W surface at room temperature, while extended to all depths at elevated temperatures, achieving up to 90% removal efficiency.…”

Mechanism of hydrogen isotope exchange for tritium removal in plasma-facing materials: a multi-scale investigation

Solution combustion synthesis of lithium orthosilicate as the tritium breeder: Effects of microwave power and fuel-to-oxidizer ratio on phase, microstructure and sintering

Influence of helium bubbles location on hydrogen isotope retention and exchange behavior in plasma-facing materials: A numerical simulation investigation