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Advanced Isotope Separation Technology for Fusion Fuel

Xin Xiao, Henry T. Sessions, Robert Rabun

Fusion Science and Technology / Volume 78 / Number 3 / April 2022 / Pages 253-257

Tecnical Paper / dx.doi.org/10.1080/15361055.2021.1982331

Received:March 8, 2021
Accepted:September 14, 2021
Published:March 22, 2022

Deuterium-tritium fusion is the easiest nuclear fusion reaction among known fusion reactions. Since tritium is extremely rare, it is artificially produced by irradiating lithium metal. The separation, isolation, and storage of the tritium isotope has been a major focus of the Savannah River Site (SRS) for many decades. Thermal diffusion, fractional absorption, and cryogenic distillation have all been used in the past, and each has significant operational and safety challenges. A process known as the Thermal Cycling Absorption Process (TCAP) was invented at SRS, and because of its overwhelming advantages in safety, efficiency, size, and reduced tritium inventory, it has replaced all other hydrogen isotope separation processes at SRS. The working principles and current development of hydrogen isotope separation using TCAP at SRS are explained as a potential advanced isotope separation process for the fusion fuel cycle.