Thermodynamic Properties of Ammonia Production from Hydrogenation of Alkali and Alkaline Earth Metal Amides

Abstract

Thermodynamic properties of alkali and alkaline earth metal amides are critical for their performance in hydrogen storage as well as catalytic ammonia synthesis. In this work, the ammonia equilibrium concentrations of LiNH₂ , KNH₂ and Ba(NH₂ )₂ at ca.10 bar of hydrogen pressure and different temperatures were measured by using a high-pressure gas-solid reaction system equipped with a conductivity meter. Hydrogenation of KNH₂ gives the highest ammonia equilibrium concentration, followed by Ba(NH₂ )₂ and LiNH₂ . Based on these data, the entropy and enthalpy changes of the reaction of ANH₂ +H₂ →AH+NH₃ (A=Li, K, and Ba) were obtained from the van't Hoff equation. These thermodynamic parameters provide important information on the understanding of metal amides in catalytic ammonia synthesis reaction.

Keywords: alkali metal amide; alkaline earth metal amide; ammonia synthesis; hydrogenation; thermodynamic property.