Synergistic Mercury Removal over the CeMnO3 Perovskite Structure Oxide as a Selective Catalytic Reduction Catalyst from Coal Combustion Flue Gas

Abstract

The LaMnO3, CeMnO3, and PrMnO3 perovskite oxides were synthesized by the sol–gel method and employed as the catalyst of selective catalytic reduction (SCR) for NO removal and synergistic mercury removal from coal combustion flue gas. The experimental results indicated that CeMnO3 exhibited the best NO and Hg0 removal activity among the three catalysts. NO conversion over CeMnO3 could reach a maximum value of 89.2% in the atmosphere of 4% O2 + 400 ppm NO + 400 ppm NH3, and the optimal reaction temperature for the NO removal was 200–250 °C, demonstrating good low-temperature catalytic activity. Hg0 removal efficiency of CeMnO3 decreased with the rise of the reaction temperature. The individual flue gas components of O2, HCl, NO, and CO2 had promotions on the Hg0 removal over CeMnO3, while SO2, NH3, and H2O displayed inhibitory actions on the efficiency. The performance of CeMnO3 on simultaneous NO and Hg0 removal was the best at 200–250 °C in simulated coal-fired flue gas. Specifically, the NO conversion an...