Role of ammonia in the reduction by hydrogen of NOx stored over Pt-Ba/Al2O3 lean NOx trap catalysts

The reduction by H-2 of nitrates stored on a model Pt-Ba/Al2O3 catalyst under isothermal conditions was investigated. An in-series two-step process involving at first the formation of ammonia on reaction of nitrates with H-2 (step 1), followed by the reaction of ammonia with residual stored nitrates to give N-2 (step 2) is proposed. Different temperature thresholds for the two steps are identified, with step I being much faster than step 2. The reaction of ammonia with nitrates to give nitrogen (step 2) is very selective, is rate-determining, and represents the major route for nitrogen formation. Due to the fast reduction of adsorbed nitrates by hydrogen (step 1) and to the plug-flow integral behavior of the reactor an H-2 front develops that travels along the reactor. Ammonia is readily produced at the front; if the temperature is high enough, then the regeneration process continues downstream of the hydrogen front due to the reaction of NH3 with the stored nitrates, leading to N-2 production. This fully explains the change in product distribution with time observed at the reactor outlet during regeneration of LNT catalysts, as well as the effect of temperature on the selectivity of the process. The effects of water and CO2 on the reduction process also are addressed. Water favors the first step of the reduction process but has no significant impact on the subsequent reaction of ammonia with stored nitrates, whereas CO2 has a strong inhibiting effect both on the reduction of nitrates to ammonia by H-2 (step 1) and on the subsequent reaction of ammonia with the residual stored nitrates (step 2), due to poisoning of Pt by CO. (c) 2008 Elsevier Inc. All rights reserved.