Catalytic reduction of NO(x) by hydrocarbons over Co/ZSM-5 catalysts prepared with different methods

Co/ZSM-5 catalysts were prepared by several methods, including wet ion exchange (WIE), its combination with impregnation (IMP), solid state ion exchange (SSI) and sublimation (SUB). FTIR results show that the zeolite protons in H-ZSM-5 are completely removed when CoCl₂ vapor is deposited. TPR shows peaks for Co²⁺ ions at 695-705°C and for Co₃O₄ at 385-390°C, but a peak in the 220-250°C region appears to indicate Co²⁺ oxo-ions. The catalysts have been tested for the selective reduction of NO_x with iso-C₄H₁₀ under O₂-rich conditions and in the absence of O₂, both with dry and wet feeds. A bifunctional mechanism appears to operate at low temperature: oxo-ions or Co₃O₄ clusters first oxidize NO to NO₂, which is chemisorbed as NO_y (y≥2) and reduced. In this modus operandi catalyst SUB shows the highest N₂ yield approx. 90% near 390°C for dry and wet feeds. It is found to be quite stable in a 52 h run with a wet feed. In contrast, the WIE catalyst, which mainly contains isolated Co²⁺ ions and has poor activity below 400°C, excels at T>430°C. This and the observation that, at high temperature, NO is reduced in O₂-free feeds over Co/MFI catalysts, suggest that NO can be reduced over Co²⁺ ions without intermediate formation of NO₂. The bifunctional mechanism at low temperature is supported by the fact that a strongly enhanced performance is obtained by mixing WIE with Fe/FER, a catalyst known to promote NO₂ formation.