Microwave-assisted catalytic biomass pyrolysis: Effects of catalyst mixtures

Authors
Mohamed, Badr A.Ellis, NaokoKim, Chang SooBi, Xiaotao
Issue Date
2019-09
Publisher
Elsevier BV
Citation
Applied Catalysis B: Environmental, v.253, pp.226 - 234
Abstract
This paper studied the catalytic effects of mixtures of different catalysts (i.e., K3PO4 "KP", Bentonite "Bento" and Clinoptilolite "Clino") on biomass catalytic pyrolysis compared to the single catalyst under microwave heating and thermogravimetric analyzer (TGA). Since some catalysts can promote microwave absorption while others show promising catalytic effects, it is possible to use mixtures of catalysts to improve high microwave heating rate and simultaneously catalyze biomass pyrolysis reactions. 10K(3)PO(4)/10Bentonite (10 wt.%ICP + 10 wt.% Bento) catalyst mixture increased the mass loss rate by 85% and 45% at 100 and 25 degrees C/min, respectively, compared to switchgrass without catalyst. The highest microwave heating rates for torrefaction (110-260 degrees C) and pyrolysis stages (260-400 degrees C) were found for the catalyst mixtures, with the highest being achieved by 10KP/10Bento. It was also found that the catalyst mixtures affected the type of coke deposited on catalyst surfaces during pyrolysis, which plays an important role on determining the microwave heating rate under microwave catalytic pyrolysis by affecting the dielectric properties of the bed material and then microwave absorption. Oxygenated-coke deposited on catalyst surfaces reduces the microwave heating rate markedly, while graphitic-coke increases the microwave heating rate considerably. Finally, catalyst combinations improved the catalytic performance significantly and reduced the catalyst loads which in turn will reduce the production cost of bio-oil and biochar from microwave-assisted catalytic pyrolysis.
Keywords
BIO-OILS; DEACTIVATION PATHWAYS; RAPID PYROLYSIS; POTASSIUM; CELLULOSE; BIOCHAR; HEMICELLULOSE; SWITCHGRASS; TEMPERATURE; CONVERSION; Synergistic effects; Microwave catalytic pyrolysis; K3PO4; Bentonite; Oxygenated coke
ISSN
0926-3373
URI
https://pubs.kist.re.kr/handle/201004/119566
DOI
10.1016/j.apcatb.2019.04.058
Appears in Collections:
KIST Article > 2019
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