8 research outputs found
Rational direct synthesis methodology of very active and hydrothermally stable Cu-SAPO-34 molecular sieves for the SCR of NOx
A one-pot direct synthesis of Cu-SAPO-34 has been achieved that allows more than 90% yield in the material synthesis. By this method it is easy to control the Cu-loading in the Cu-SAPO-34. It is presented that a maximum in hydrothermal stability with very high activity for NOx SCR with NH3 is obtained for an optimum Cu loading.This work has been supported by Haldor-Topsoe, Consolider Ingenio 2010-Multicat, and UPV through PAID-06-11 (no. 1952). MM acknowledges to "Subprograma Ramon y Cajal" for the contract RYC-2011-08972.MartĂnez Franco, R.; Moliner Marin, M.; Franch MartĂ, C.; Kustov, A.; Corma CanĂłs, A. (2012). Rational direct synthesis methodology of very active and hydrothermally stable Cu-SAPO-34 molecular sieves for the SCR of NOx. Applied Catalysis B: Environmental. 127:273-280. https://doi.org/10.1016/j.apcatb.2012.08.034S27328012
Regeneration of Pt-catalysts deactivated in municipal waste flue gas with H2/N2 and the effect of regeneration step on the SCR catalyst
Synthesis and characterization of copper-zirconia based catalysts for DeNOx in biomass fired units
Tungstated zirconia as promising carrier for DeNOx catalysts with improved resistance towards alkali poisoning
Impact of Support and Potassium-Poisoning on the V2O5-WO3/ZrO2 Catalyst Performance in Ammonia Oxidation
Influence of lattice stability on hydrothermal deactivation of Cu-ZSM-5and Cu-IM-5 zeolites for selective catalytic reduction of by
Copper-exchanged zeolites are well-known catalysts for the selective catalytic reduction of nitrogen oxides by ammonia (NH3-SCR). To determine the influence of framework stability on catalyst deactivation, two zeolite frameworks, MFI and IMF, were used in this study. The two frameworks have similar window size and connectivities, but the IMF structure is less susceptible towards dealumination. In each zeolite, copper was introduced by aqueous exchange and the catalytic performance in the NH3-SCR reaction compared before and after hydrothermal ageing at 650 and 750 °C. The changes in state and local environment of Cu and the degradation of the zeolite structure were characterized using ammonia capacity measurements, solid state nuclear magnetic resonance, X-ray fine structure spectroscopy, temperature programmed reduction with hydrogen, infrared spectroscopy monitoring of adsorbed NO and CO probe molecules as well as the combination of transmission electron microscopy and energy dispersive X-ray spectroscopy to follow copper migration. The catalytic performance of Cu-ZSM-5 and Cu-IM-5 is similar in the fresh state, but after hydrothermal ageing the deactivation of Cu-IM-5 is less severe compared to Cu-ZSM-5 as a consequence of the higher framework stability. The changes in catalyst structure that occur during ageing are (i) partial dealumination of the zeolite, (ii) reversible migration of copper species, and (iii) irreversible formation of catalytically inactive and stable Cu–Al clusters, which have some resemblance to CuAl2O4, but without the symmetry of Cu in the spinel structure. As the Cu–Al clusters only form once Al is detached from the framework, the stability of Al in the zeolite framework is proposed to dictate the overall hydrothermal deactivation behaviour of Cu-ZSM-5 and Cu-IM-5 in the NH3-SCR reaction