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Plasma Catalyst-Integrated System for Ammonia Production from H<sub>2</sub>O and N<sub>2</sub> at Atmospheric Pressure

Muzammil Iqbal, You-Na Kim, Hongjae Kang, Duy Khoe Dinh, Seongil Choi, Chanmi Jung, Young‐Hoon Song, Eun-Seok Kim, Ji Man Kim, Dae Hoon Lee

2021ACS Energy Letters65 citationsDOI

Abstract

Plasma technology is considered a sustainable and clean technology for the conversion of naturally abundant compounds (i.e., water (H2O) and nitrogen gas (N2)) into energy-abundant compounds (e.g., hydrogen gas (H2), ammonia (NH3)) or chemical feed molecules (e.g., nitric oxide (NO)). Here, we report a plasma catalyst-integrated system for sustainable ammonia production, which can facilitate massive, localized ammonia production. This study demonstrates the single-step cogeneration of H2 and nitric oxides (NOx) from H2O in the nitrogen discharge used for ammonia production, which proceeded via the catalytic reduction of NOx by H2. The proposed plasma technique yields higher NO and H2 concentrations than conventional plasma methods, which were used to obtain an ammonia concentration of ∼0.84% with a selectivity of ∼95% and a production rate of 120 μmol/s. These promising results provide a breakthrough in the transition toward sustainable and environmentally friendly ammonia production.

Topics & Concepts

Ammonia productionAmmoniaCatalysisNOxChemistryHydrogenEnvironmentally friendlyNitrogenPlasmaAtmospheric pressureSelective catalytic reductionInorganic chemistryAtmospheric-pressure plasmaEnvironmental chemistryOrganic chemistryCombustionOceanographyPhysicsGeologyEcologyBiologyQuantum mechanicsAmmonia Synthesis and Nitrogen ReductionPlasma Applications and DiagnosticsCaching and Content Delivery