Ammonia Synthesis via Non-Equilibrium Reaction of Lithium Nitride in Hydrogen Flow Condition

Kiyotaka Goshome; Hiroki Miyaoka; Hikaru Yamamoto; Tomoyuki Ichikawa; Takayuki Ichikawa; Yoshitsugu Kojima

doi:10.2320/matertrans.M2014382

Kiyotaka Goshome, Hiroki Miyaoka, Hikaru Yamamoto, Tomoyuki Ichikawa, Takayuki Ichikawa, Yoshitsugu Kojima

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Keywords: ammonia synthesis, lithium nitride, non-equilibrium reaction

JOURNAL FREE ACCESS

2015 Volume 56 Issue 3 Pages 410-414

DOI https://doi.org/10.2320/matertrans.M2014382

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Abstract

Lithium nitride Li₃N is hydrogenated below 300°C under 0.5 MPa of H₂, and then LiNH₂ and LiH are formed as products. Furthermore, the reaction between LiNH₂ and H₂ proceeds below 250°C under 0.5 MPa of H₂ flow condition, which forms NH₃ and LiH. In this study, we proposed and investigated another synthesis method of ammonia by combining these two reactions, which proceed in laboratory-scale under more moderate conditions than those of Haber–Bosch process. As a result, it was experimentally clarified that the ammonia synthesis were able to be operated below 300°C with realistic reactions rate by non-equilibrium reaction field under 0.5 MPa H₂ flow condition, where a gas circuit system and a larger scale NH₃ synthesis system were designed and assembled for the experiments.

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