The separation of hydrogen and deuterium by cryogenic adsorption was conducted, using the molecular sieve 5A as adsorbent, helium as the carder gas in a fixed column. The breakthrough curves of hydrogen, deuterium and...The separation of hydrogen and deuterium by cryogenic adsorption was conducted, using the molecular sieve 5A as adsorbent, helium as the carder gas in a fixed column. The breakthrough curves of hydrogen, deuterium and the mixture of two components in helium carder gas were measured, a separation factor, approximately 2, for the hydrogen-deuterium binary mixture was obtained. The equilibrium model was built for simulation of the concentration distribution for single hydrogen, deuterium and their mixture with helium carder in the fixed column, and the simulation compared well with the experimental results.展开更多
文摘The separation of hydrogen and deuterium by cryogenic adsorption was conducted, using the molecular sieve 5A as adsorbent, helium as the carder gas in a fixed column. The breakthrough curves of hydrogen, deuterium and the mixture of two components in helium carder gas were measured, a separation factor, approximately 2, for the hydrogen-deuterium binary mixture was obtained. The equilibrium model was built for simulation of the concentration distribution for single hydrogen, deuterium and their mixture with helium carder in the fixed column, and the simulation compared well with the experimental results.
