Experimental screening of metal nitrides hydrolysis for green ammonia synthesis via solar thermochemical looping - Archive ouverte HAL
Article Dans Une Revue Chemical Engineering Science Année : 2024

Experimental screening of metal nitrides hydrolysis for green ammonia synthesis via solar thermochemical looping

Bertrand Rebiere
Martin Drobek
A. Julbe

Résumé

Ammonia is a fundamental chemical commodity for fertilizer and as a novel energy vector. Solar-driven ammonia synthesis is proposed as a sustainable alternative to the catalytic energy-intensive and CO2-emitting Haber-Bosch process. The considered thermochemical process aims to produce ammonia from nitrogen and water (N2+3H2O→2NH3+1.5O2) via redox cycles using a solar heat source, thus bypassing the supply of H2 or electricity. Metal oxide/nitride redox pairs can be employed for this cyclic process. The exothermal hydrolysis reaction of nitrides produces ammonia (MxNy+3H2O→2NH3+Mx'Oy'), and is followed by one or several regeneration steps (Mx'Oy'+N2→MxNy+ 3 /2O2) requiring a heat supply from concentrated solar energy. This study aims to experimentally identify the most suitable metal nitrides in the hydrolysis step for ammonia synthesis based on solar-driven chemical-looping. As a result, FeN, CrN, BN, and Si3N4 turned out to be irrelevant candidates for NH3 production, as the hydrolysis yield was poor up to 1000°C. In contrast, AlN, Li3N, Ca3N2, Mg3N2, TiN, and ZrN exhibited noteworthy reactivity depending on the temperature. The hydrolysis rate of AlN was significantly enhanced only above 1100°C, TiN showed an increasing NH3 production rate with temperature (reaching 3.4 mmol/min/g at 1000°C), while an optimum at 750°C was unveiled for complete ZrN conversion (corresponding to the highest rate of 34.2 mmol/min/g). Hydrolysis of Li3N, Ca3N2, and Mg3N2 was complete at lower temperatures (~200°C), with NH3 yields of 5.9, 4.9, and 18.6 mmol/g, respectively. Solar-driven regeneration of metal nitrides at high temperature will be then necessary to demonstrate the complete feasibility of thermochemical cycles for green ammonia synthesis.
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Dates et versions

hal-04251780 , version 1 (20-10-2023)

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Stéphane Abanades, Bertrand Rebiere, Martin Drobek, A. Julbe. Experimental screening of metal nitrides hydrolysis for green ammonia synthesis via solar thermochemical looping. Chemical Engineering Science, 2024, 283, pp.119406. ⟨10.1016/j.ces.2023.119406⟩. ⟨hal-04251780⟩
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