Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water

January 26, 2021

Title

Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water

Author

Yusuke Inoea

Year

2021

Journal

Nature Communications

Abstract

NH3-SCR (selective catalytic reduction) is important process for removal of NOx. However, water vapor included in exhaust gases critically inhibits the reaction in a low temperature range. Here, we report bulk W-substituted vanadium oxide catalysts for NH3-SCR at a low temperature (100–150 °C) and in the presence of water (~20 vol%). The 3.5 mol% W-substituted vanadium oxide shows >99% (dry) and ~93% (wet, 5–20 vol% water) NO conversion at 150 °C (250 ppm NO, 250 ppm NH3, 4% O2, SV = 40000 mL h−1 gcat−1). Lewis acid sites of W-substituted vanadium oxide are converted to Brønsted acid sites under a wet condition while the distribution of Brønsted and Lewis acid sites does not change without tungsten. NH4+ species adsorbed on Brønsted acid sites react with NO accompanied by the reduction of V5+ sites at 150 °C. The high redox ability and reactivity of Brønsted acid sites are observed for bulk W-substituted vanadium oxide at a low temperature in the presence of water, and thus the catalytic cycle is less affected by water vapor.

Instrument

V-670, FT/IR-4200,FT/IR-4700 w/gas cell LPC12M-S

Keywords

Nox, catalyst, emvironment, FTIR, gas monitoring