An assessment of low temperature NOx adsorbers for cold-start NOx control on diesel engines

Fresh and thermally aged laboratory samples of several low temperature NOx adsorber (LTNA) formulations were evaluated for low temperature NOx storage and release under lean conditions to assess their potential for treating the cold-start NOx emissions on diesel engines before the SCR system becomes operational. Steady-state tests were used to determine the NOx storage capacity as a function of temperature and to determine the minimum temperature for purging the LTNA of stored NOx. The samples were also evaluated on a transient test performed on the reactor that simulated the thermal environment during the first two phases of the light-duty Federal Test Procedure (FM-75) followed by a Supplemental FTP (US06) test. The Pt-rich LTNAs exhibited low NOx storage performance during the initial 200s of this transient test due to low storage efficiency of NO and weak NO oxidation capability. A Pd-rich formulation provided efficient storage of NO and C2H4 on the transient test and released most of the stored NO by 350 degrees C. The presence of C2H4 improved its NOx storage performance after thermal aging. SO2 poisoned the stoiage of NO2 as nitrates at 170 degrees C, but the storage of NO as nitrites at lower temperatures (e.g., 90-140 degrees C) was more robust to the SO2. A lean desulfation at 750 degrees C recovered some of the storage performance. The Pd-rich LTNA performed best when highly oxidized. This catalyst demonstrated a gradual loss of NOx storage performance when evaluated on consecutive lean transient tests. This was attributed to the gradual reduction of the palladium oxide from reacting with the feedgas NO and C2H4 to form NO2 and CO at temperatures near 90 degrees C. Methane oxidation was used to probe the oxidation state of the palladium oxide and confirmed that the palladium oxide was partially reduced after only two lean transient tests. (C) 2015 Elsevier B.V. All rights reserved.