Isotope Exchange of ND<sub>3</sub> on Pt Catalyst–Loaded 5A Molecular Sieve

Paul R. Beaumont; Daniel M. Clairmonte

doi:dx.doi.org/10.1080/15361055.2023.2284396

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Isotope Exchange of ND₃ on Pt Catalyst–Loaded 5A Molecular Sieve

Paul R. Beaumont, Daniel M. Clairmonte

Fusion Science and Technology / Volume 80 / Number 8 / November 2024 / Pages 1024-1030

Research Article / dx.doi.org/10.1080/15361055.2023.2284396

Received:August 3, 2023

Accepted:November 7, 2023

Published:October 4, 2024

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Recollecting and purifying unburned tritium is a preferred process for D-T fusion operations. However, tritium containing byproducts act as a potential holdup for the material, requiring additional processing to liberate the tritium. Using deuterium as a surrogate for tritium, this work demonstrates the capture and isotope exchange of deuterated ammonia using a Pt catalyst–loaded 5A molecular sieve, performed at ambient temperatures, verified by the analysis of the effluent gas streams and desorbed ammonia isotopologues post exchange.

Isotope Exchange of ND3 on Pt Catalyst–Loaded 5A Molecular Sieve

Isotope Exchange of ND₃ on Pt Catalyst–Loaded 5A Molecular Sieve