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Bench-scale production of liquid fuel from woody biomass via gasification
- Source :
-
Fuel Processing Technology . Aug2010, Vol. 91 Issue 8, p859-865. 7p. - Publication Year :
- 2010
-
Abstract
- Abstract: The bench-scale production of hydrocarbon liquid fuel was achieved from woody biomass via gasification. The daily production capacity of the biomass-to-liquid (BTL) plant used in this study was 7.8L of hydrocarbon liquid from 48kg of woody biomass (on a dry basis), corresponding to 0.05 barrels. The BTL process involved the following steps: oxygen-enriched air gasification of the woody biomass, wet and dry gas cleaning, gas compression, carbon dioxide removal, and the Fischer–Tropsch (FT) synthesis reaction. In the gasification step, oxygen-enriched air gasification was carried out using a downdraft fixed-bed gasifier. The content of oxygen, which acts as the gasifying agent, was increased from 21.0 to 56.7vol%; maximum values of the conversion to gas on a carbon basis and cold gas efficiency–approximately 96 C-mol% and 87.8%, respectively–were obtained at an oxygen content of around 30vol%. With the increased oxygen content, the concentrations of CO, H2, and CO2 increased from 22.8 to 36.5vol%, from 16.8 to 28.1vol%, and from 9.8 to 14.8vol%, respectively, while that of N2 decreased from 48.8 to 16.0vol%. The feed gas for the FT synthesis reaction was obtained by passing the product gas from the gasification step through a scrubber, carbon dioxide removal tower, and desulfurization tower; its composition was 30.8vol% CO, 25.2vol% H2, 0.9vol% CO2, 2.5vol% CH4, 40.6vol%N2, <5ppb H2S, and <5ppb COS. The hydrocarbon fuel was synthesized in a slurry bed reactor using hexadecane as the solvent and a Co/SiO2 catalyst. For hydrocarbons with carbon chain lengths of more than 5 carbon atoms (collectively referred to as C5+) in the liquid fuel, a selectivity of 87.5% was obtained along with a chain growth probability of 0.84 under the following conditions: 4MPa, 280 to 340°C, and a ratio of catalyst weight to feed gas rate (W/F) of 9.3g·h/mol. [Copyright &y& Elsevier]
Details
- Language :
- English
- ISSN :
- 03783820
- Volume :
- 91
- Issue :
- 8
- Database :
- Academic Search Index
- Journal :
- Fuel Processing Technology
- Publication Type :
- Academic Journal
- Accession number :
- 51436355
- Full Text :
- https://doi.org/10.1016/j.fuproc.2009.09.012