Bio-syngas production from agro-industrial biomass residues by steam gasification

•Three agro-industrial residues showed high potential for steam gasification.•Two distinct kinetic regimes were identified at different temperatures.•The bio-syngas production and the reactivity were affected by the regime.•H2/CO ratio was higher at low temperatures within kinetic controlled regime....

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Bibliographic Details
Published in:Waste management (Elmsford) 2016-12, Vol.58, p.221-229
Main Authors: Pacioni, Tatiana Ramos, Soares, Diniara, Domenico, Michele Di, Rosa, Maria Fernanda, Moreira, Regina de Fátima Peralta Muniz, José, Humberto Jorge
Format: Article
Language:English
Subjects:
Agriculture
Biofuels
Biomass
Brazil
Carbon Monoxide
Charcoal
Conversion
Gasification
Hydrogen
Industrial Waste
Kinetics
Malus
Partial pressure
Reaction kinetics
Residues
Steam
Steam gasification
Syngas
Synthetic fuels
Temperature
Waste Management - methods
Waste-to-energy
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Summary:•Three agro-industrial residues showed high potential for steam gasification.•Two distinct kinetic regimes were identified at different temperatures.•The bio-syngas production and the reactivity were affected by the regime.•H2/CO ratio was higher at low temperatures within kinetic controlled regime. This study evaluated the steam gasification potential of three residues from Brazilian agro-industry by assessing their reaction kinetics and syngas production at temperatures from 650 to 850°C and a steam partial pressure range of 0.05 to 0.3bar. The transition temperature between kinetic control and diffusion control regimes was identified. Prior to the gasification tests, the raw biomasses, namely apple pomace, spent coffee grounds and sawdust, were pyrolyzed in a fixed-bed quartz tubular reactor under controlled conditions. Gasification tests were performed isothermally in a magnetic suspension thermobalance and the reaction products were analyzed by a gas chromatograph with TCD/FID detectors. According to the characterization results, the samples presented higher carbon and lower volatile matter contents than the biomasses. Nevertheless, all of the materials had high calorific value. Syngas production was influenced by both temperature and steam partial pressure. Higher concentrations of H2 and CO were found in the conversion range of 50–80% and higher concentrations of CO2 in conversions around 10%, for all the gasified biochars. The H2/CO decreased with increasing temperature, mainly in kinetic control regime, in the lower temperature range. The results indicate the gasification potential of Brazilian biomass residues and are an initial and important step in the development of gasification processes in Brazil.
ISSN:0956-053X
1879-2456
DOI:10.1016/j.wasman.2016.08.021