Abstract
The effective evacuation and separation (at helium temperature) of a model gas mixture consisting of He, H2, D2, N2, Ar and other components (close to that formed in a thermonuclear reactor) yielding up to 44% of D2 during desorption, is implemented using a newly developed vacuum pump-separator with a non-isothermal multilayer (up to 100 layers) system of working elements (consisting of perforated screening and spacing materials). Improvements to the vacuum-pump separator design and the use of an ortho-para conversion catalyst made it possible to increase the yield of D2 from the model mixture to 64–69% at hydrogen temperature.
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