Energy‐Efficient Small‐Scale Ammonia Synthesis Process with Plasma‐Enabled Nitrogen Oxidation and Catalytic Reduction of Adsorbed NO<sub><i>x</i></sub>
Lander Hollevoet, Elise Vervloessem, Yury Gorbanev, Anton Nikiforov, Nathalie De Geyter, Annemie Bogaerts, Johan A. Martens
Abstract
Abstract Industrial ammonia production without CO 2 emission and with low energy consumption is one of the technological grand challenges of this age. Current Haber‐Bosch ammonia mass production processes work with a thermally activated iron catalyst needing high pressure. The need for large volumes of hydrogen gas and the continuous operation mode render electrification of Haber‐Bosch plants difficult to achieve. Electrochemical solutions at low pressure and temperature are faced with the problematic inertness of the nitrogen molecule on electrodes. Direct reduction of N 2 to ammonia is only possible with very reactive chemicals such as lithium metal, the regeneration of which is energy intensive. Here, the attractiveness of an oxidative route for N 2 activation was presented. N 2 conversion to NO x in a plasma reactor followed by reduction with H 2 on a heterogeneous catalyst at low pressure could be an energy‐efficient option for small‐scale distributed ammonia production with renewable electricity and without intrinsic CO 2 footprint.