关键词: MnO_x/WO₃/TiO₂催化剂, 原位红外, NH₃-SCR脱硝机理, 制备, 吸附, 活化

Abstract:

15% MnO_x/5% WO₃/ TiO₂ catalyst for low-temperature selective catalytic reduction of NO_x was synthesized by an impregnation method. NH₃-SCR mechanism was explored systematically and possible pathway was proposed through in situ FT-IR study on microscopic transient and steady states under various conditions of single or mixed gas feed with multiple pre-treatment. The results revealed that NH₃-SCR reaction over the 15%MnO_x/5%WO₃/TiO₂ catalyst proceeded mainly by the Eley-Rideal mechanism with the Langmuir-Hinshclwood pathway only at certain temperature. NH₃ adsorbed on the Lewis acid sites of the catalyst surface was the main source of reductant; however, more NH₄⁺ adsorbed on the Brønsted acid sites of the catalyst surface involved in the NO_x reduction with increase of reaction temperature. The adsorption and activation of NH₃ was key step for the whole SCR reaction. NO₂ easily reacted with adsorbed NH₃ with stronger affinity to catalyst surface than NO. The bidentate nitrate, which formed considerably at oxidation active centers of the catalyst by NO adsorption, didn't participate in NH₃-SCR reaction but obstructed adsorption and activation of NH₃. O₂ could promote NH₃-SCR by blocking formation of bidentate nitrate. The adsorption of NO and NH₃ on the catalyst surface was competitive at room temperature, which NO adsorption was higher than NH₃ at O₂ absence. The absorbed NH₃ could be massively activated and reacted with NO_x upon temperature reached to 100℃.

Key words: MnO_x/WO₃/TiO₂ catalyst, in situ FT-IR, NH₃-SCR mechanism, preparation, adsorption, activation