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Raw exhaust gases may contain notable levels of formaldehyde that can negatively impact the efficiency of after -treatment systems. In the selective catalytic reduction (SCR) of NOx over V2O5/WO3-TiO2, formaldehyde was found to react with NH3 to produce HCN at concentrations above the threshold limit value set by environmental/ safety organizations. Due to this side reaction, NH3 is consumed parasitically and the NOx conversion decreases by up to 15 %, even after compensating for the fraction of lost NH3. Under similar conditions, the non-reducible TiO2 support also produced HCN moderately, thereby showing that redox sites promote the reaction but are not a necessary condition. To understand the chemistry responsible for HCN formation, the roles of reaction temperature, water, and oxygen were investigated. Our results suggest a new pathway for HCN production through the direct reaction of formaldehyde and NH3, which is active at high temperature and does not proceed through the formate route previously proposed.
Davide Ferri, Rob Jeremiah G. Nuguid
Davide Ferri, Oliver Kröcher, Rob Jeremiah G. Nuguid