Role of zeolite structure on reduction of NOx with methane over In- and Pd-based catalysts

Catalytic performances of ZSM-5 based catalysts containing indium or palladium were examined for NO reduction with CH₄ and NO_x chemisorption. The amounts of NO_x chemisorbed on In/H-ZSM-5 were well proportional to the catalytic activities for NO_x reduction. Pd/H-ZSM-5, on the other hand, hardly chemisorbed NO₂, while the catalytic activity for NO₂ reduction with CH₄ is very high. Furthermore, Pd loaded on SiO₂ showed comparably high catalytic activity for NO₂ reduction with CH₄ at 400°C in the absence of oxygen as Pd/H-ZSM-5. CH₄ combustion during NO_x reduction with CH₄ in the presence of oxygen significantly occurred over PdO on SiO₂, while less over Pd/H-ZSM-5. The role of zeolite might be slightly different between In/H-ZSM-5 and Pd/H-ZSM-5: the zeolitic porous structure is needed for In/H-ZSM-5 in order to concentrate NO₂ adspecies on InO⁺ sites, which is important for NO reduction with CH₄ on In/H-ZSM-5 based catalysts, while the ion-exchangeable ability of zeolite is needed for Pd/H-ZSM-5 in order to make Pd²⁺ located in a highly dispersed state, on which NO is strongly chemisorbed.