Remarkable influence of reductant structure on the activity of alumina-supported silver catalyst for the selective catalytic reduction of NOx

This study investigated the selective catalytic reduction of NOx over alumina-supported silver catalyst by butyl alcohol isomers. Butyl alcohol (BA), sec-butyl alcohol (SBA), and isobutyl alcohol (IBA) showed similarly high efficiency for NOx reduction at low temperatures, while tert-butyl alcohol (TBA) exhibited a much lower performance. In situ diffuse reflectance infrared Fourier transform spectroscopy was used to clarify the remarkable influence of the alcohol structure on NOx reduction. A high surface concentration of enolic species was observed during the partial oxidation of BA, IBA, and SBA, leading to a high concentration of isocyanate species and high NOx conversion. However, due to the absence of α-H, it was difficult to partially oxidize TBA to form the enolic species, which resulted in its low efficiency for NOx reduction. Based on the results obtained, a mechanism was proposed to explain the close relationship between the structure feature of alcohols and NOx reduction efficiency.

The presence of α-H is prerequisite for enolic species formation during NOx reduction by C4 alcohols over Ag/Al2O3, playing a crucial role in the efficiency for NOx conversion.Figure optionsDownload high-quality image (100 K)Download as PowerPoint slide