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Lithium‐based Loop for Ambient‐Pressure Ammonia Synthesis in a Liquid Alloy‐Salt Catalytic System

Zujian Tang, Xian Meng, Yue Shi, Xiaofei Guan

2021ChemSusChem30 citationsDOIOpen Access PDF

Abstract

Abstract The Haber‐Bosch process for ammonia (NH 3 ) production in industry relies on high temperature and high pressure and is therefore highly energy intensive. In addition, the activity of the solid transition metal‐based catalysts used is typically limited by the scaling relation between activation barrier for N 2 dissociation and nitrogen‐binding energy. Here, an innovative Li‐based loop in a liquid alloy‐salt catalytic system for ambient‐pressure NH 3 synthesis from N 2 and H 2 was developed. The looping process consisted of three reaction steps taking place simultaneously. The first step was the nitrogen fixation by Li in the liquid Li−Sn alloy to form lithium nitride (Li 3 N), which floated up and dissolved into the molten salt. The second step was the hydrogenation of the Li 3 N to produce NH 3 and lithium hydride (LiH) in the molten salt. The third step was the decomposition of the LiH to regenerate Li in the presence of Sn. An average NH 3 yield rate of 0.025 μg s −1 was achieved in an 81 h test at 510 °C and ambient pressure. The floating and dissolution of Li 3 N realized in the liquid catalytic system enabled circumventing the scaling relation exerted on Li, and the remarkable properties of liquid alloy and molten salt offered extraordinary advantages for NH 3 synthesis at ambient pressure.

Topics & Concepts

Ambient pressureAmmonia productionCatalysisDissolutionAlloyChemistryHydrideMolten saltLithium (medication)AmmoniaInorganic chemistrySalt (chemistry)Chemical engineeringDecompositionMetalMaterials sciencePhysical chemistryOrganic chemistryThermodynamicsPhysicsMedicineEndocrinologyEngineeringAmmonia Synthesis and Nitrogen ReductionHydrogen Storage and MaterialsMuon and positron interactions and applications
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