Abstract:Nitrous oxide (N2O) is considered the primary source of NOx in the atmosphere, and among several abatement processes, catalytic decomposition is the most promising. The thermal energy necessary for this reaction is generally provided from the external side of the reactor by burning fossil fuels. In the present work, in order to overcome the limits related to greenhouse gas emissions, high heat transfer resistance, and energy losses, a microwave-assisted N2O decomposition was studied, taking advantages of the m… Show more
In this review, we consolidate and update recently developed advanced nanomaterials and uncovered reaction mechanisms of different N2O abatement technologies.
In this review, we consolidate and update recently developed advanced nanomaterials and uncovered reaction mechanisms of different N2O abatement technologies.
A novel low-temperature catalytic process in an electric field can reduce N2O, which has a strong impact on global warming and environmental destruction, even in the presence of oxygen and steam.
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