TY - JOUR
T1 - Simultaneous Removal of NOx and Soot Particulate from Diesel Exhaust by in-situ Catalytic Generation and Utilisation of N2O
AU - Davies, Catherine
AU - Thompson , Kate
AU - Cooper, Anna
AU - Golunski, Stan
AU - Taylor, Stuart
AU - Bogarra Macias, Maria
AU - Doustdar, Omid
AU - Tsolakis, Athanasios
PY - 2018/12/30
Y1 - 2018/12/30
N2 - One of the outstanding challenges in diesel exhaust catalysis is to integrate oxidation chemistry, soot filtration and NOx reduction in a single aftertreatment unit, while avoiding the need for fuel injection to regenerate the filter. Here we show that destruction of trapped soot can be initiated catalytically at 200 °C when its oxidation is coupled with non-selective NOx reduction (using NH3 as reductant), which acts as an in-situ source of N2O. In laboratory tests over an extended temperature range (up to 800 °C), using supported silver as a catalyst for both non-selective NOx-reduction and soot oxidation, the conversion of immobilised soot to CO2 can be resolved into four consecutive steps as the temperature rises: catalysed oxidation by N2O; non-catalysed oxidation by NO2; catalysed oxidation by O2; non-catalysed oxidation by O2. Initial engine tests indicate that the critical first step (C + N2O) can be replicated in a diesel exhaust.
AB - One of the outstanding challenges in diesel exhaust catalysis is to integrate oxidation chemistry, soot filtration and NOx reduction in a single aftertreatment unit, while avoiding the need for fuel injection to regenerate the filter. Here we show that destruction of trapped soot can be initiated catalytically at 200 °C when its oxidation is coupled with non-selective NOx reduction (using NH3 as reductant), which acts as an in-situ source of N2O. In laboratory tests over an extended temperature range (up to 800 °C), using supported silver as a catalyst for both non-selective NOx-reduction and soot oxidation, the conversion of immobilised soot to CO2 can be resolved into four consecutive steps as the temperature rises: catalysed oxidation by N2O; non-catalysed oxidation by NO2; catalysed oxidation by O2; non-catalysed oxidation by O2. Initial engine tests indicate that the critical first step (C + N2O) can be replicated in a diesel exhaust.
KW - diesel exhaust
KW - NOx reduction
KW - soot oxidation
KW - nitrous oxide
KW - silver
U2 - 10.1016/j.apcatb.2018.07.072
DO - 10.1016/j.apcatb.2018.07.072
M3 - Article
SN - 0926-3373
VL - 239
SP - 10
EP - 15
JO - Applied Catalysis B: Environmental
JF - Applied Catalysis B: Environmental
ER -