NO reduction over nanostructure M-Cu/ZSM-5 (M: Cr, Mn, Co and Fe) bimetallic catalysts and optimization of catalyst preparation by RSM

The selective catalytic reduction (SCR) of NO with NH3 in the presence of oxygen over a series of H-ZSM-5 supported transition metal oxides (Co, Mn, Cr, Cu and Fe) was investigated. Among them, Cu/ZSM-5 nanocatalyst was found to be the most promising catalyst based on activity. The modification of C...

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Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2013, 19(6), , pp.1793-1799
Main Authors: Panahi, P. Nakhostin, Salari, D., Niaei, A., Mousavi, S.M.
Format: Article
Language:English
Subjects:
Bimetallic catalysts
BIMETALS
Catalysis
CATALYSTS
Chromium
COMPOSITES
Conversion
Copper
H-ZSM-5
Iron
Manganese
MICROSTRUCTURES
Nanostructure
Optimization
RSM
SCR
화학공학
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cited_by cdi_FETCH-LOGICAL-c366t-a4da0e9b3a6232da886fcf7ad454cff409ba94af482b33e726afa481e2c3a6033
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container_title Journal of industrial and engineering chemistry (Seoul, Korea)
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creator Panahi, P. Nakhostin
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description The selective catalytic reduction (SCR) of NO with NH3 in the presence of oxygen over a series of H-ZSM-5 supported transition metal oxides (Co, Mn, Cr, Cu and Fe) was investigated. Among them, Cu/ZSM-5 nanocatalyst was found to be the most promising catalyst based on activity. The modification of Cu/ZSM-5 by adding different transition metals (Co, Mn, Cr and Fe) to improve the efficiency of NO conversion was studied. The results indicated that the Fe–Cu/ZSM-5 bimetallic nanocatalyst was the highest active catalyst for NO conversion (67% at 250°C and 93% at 300°C). Response surface methodology (RSM) involving central composite design (CCD) was employed to evaluate and optimize Fe–Cu/ZSM-5 preparation parameters (Fe loading, calcinations temperature, and impregnation temperature) in SCR of NO at 250°C. The optimum condition for maximum NO conversion was estimated at 4.2wt.% Fe loading, calcinations temperature of 577°C and impregnation temperature of 43.5°C. Under these condition, experimental NO conversion efficiency was 78.8%, which was close with the predicted value (79.4%).
doi_str_mv 10.1016/j.jiec.2013.02.022
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subjects Bimetallic catalysts
BIMETALS
Catalysis
CATALYSTS
Chromium
COMPOSITES
Conversion
Copper
H-ZSM-5
Iron
Manganese
MICROSTRUCTURES
Nanostructure
Optimization
RSM
SCR
화학공학
title NO reduction over nanostructure M-Cu/ZSM-5 (M: Cr, Mn, Co and Fe) bimetallic catalysts and optimization of catalyst preparation by RSM
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