Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Gasification, steam biomass

Hofbauer, H. Rauch, R. Foscolo, P. Matera, D., Hydrogen rich gas from biomass steam gasification. 1st World Conference on Biomass for Energy and Industry, Sevilla, 2001, pp. 1997-2001. [Pg.220]

CLEAN ENERGY FROM BIOMASS - The project is addressed at demonstrating the industrial feasibility of the integration of biomass steam gasification with a MCFC for clean and renewable power generation. [Pg.146]

Fundamental Fluid-Dynamic Investigations in a Scaled Cold Model for Biomass Steam-Gasification... [Pg.188]

Koppatz, S., Schmid, J.C., Pfeifer, C. and Hofbauer, H. (2012) The effect of bed particle inventories with different particle sizes in a dual fluidized bed pilot plant for biomass steam gasification. Industrial Engineering Chemistry Research, 51, 10492-10502. [Pg.378]

Rapagna, S., Virginie, M., Gallucci, K. et al. (2011) Fe/olivine catalyst for biomass steam gasification preparation, characterization and testing at real process conditions. CatalysisToday, 176, 163-168. [Pg.382]

UNIQUE (2011) European collaborative research project. Integration of particulate abatement, removal of trace elements and tar reforming in one biomass steam gasification reactor yielding high purity syngas for efficient CHP and power plants. Project number 211517, Pinal Report. [Pg.383]

Franco, C., et al., 2003. The study of reactions influencing the biomass steam gasification process. Fuel 82 (7), 835—842. [Pg.488]

Schuster, G., et al., 2001. Biomass steam gasification — an extensive parametric modeling study. Bioresource Technology 77 (1), 71—79. [Pg.492]

Hanaoka, T. Yoshida, T. Fujimoto, S. Kamei, K. Flarada, M. Suzuki, Y. Flatano, FI. Yokoyama, S.-Y. Minowa, T., Flydrogen production from woody biomass by steam gasification using a C02 sorbent. Biomass and Bioenergy 2005,28,63-68. [Pg.221]

Baker, E. Mudge, L. Wilcox, W. A., Catalysis of gas phase reactions in steam gasification of biomass. In Fundamentals of Thermochemical Biomass Conversion, Overend, R. P. et al., Ed., Elsevier Applied Science, London, 1985, pp. 1194-1208. [Pg.222]

Baker, E. Mudge, L. Brown, M., Steam gasification of biomass with nickel secondary catalysts. Industrial and Engineering Chemistry Research 1987, 26, 1335-1339. [Pg.222]

Mudge, L. K. Baker, E. G. Mitchell, D. H. Brown, M. D., Catalytic steam gasification of biomass for methanol and methane production. Journal of Solar Energy Engineering 1985, 107, 88-92. [Pg.222]

Sadaka, S. S., Ghaly, A. E., and Sabbah, M. A., Two Phase Biomass Air-Steam Gasification Model for Fluidized Bed Reactors Part I - Model Development Biomass and Bioenergy, 22, 2002, pp. 439-462. [Pg.20]

Chaudhari, S.T., Ferdous, D., Dalai, A.K, Bej, S.K, Thring, R.W., and Bakhshi, N.N. (2000). Pyrolysis and Steam Gasification of Westvaco Kraft Lignin for the Production of Hydrogen and Medium Btu Gas, Abstracts Progress in Thermochemical Biomass Conversion, Tyrol, Austria, 17-22 September. [Pg.140]

Garcia, L., Sanchez, J.L., Salvador, M.L., Bilbao, R., and Arauzo J. (1996). Hydrogen-rich Gas from Steam Gasification of Biomass Using Coprecipitated Nickel-alumina Catalysts, Bioenergy 96. The Seventh National Bioenergy Conference, pp. 859-865. [Pg.141]

Hydrogen can be produced from biorenewable feedstocks via thermochemical conversion processes such as pyrolysis, gasification, steam gasification, steam reforming of bio-oils, and supercritical water gasification (SWG) of biomass. [Pg.176]

Production of hydrogen by catalytic steam gasification of biomass... [Pg.177]

Cox et al. (1995) portray a new approach to thermochemical gasification of biomass to hydrogen. The process is based on catalytic steam gasification of biomass with concurrent separation of hydrogen in a membrane reactor that employs a permselective membrane to separate the hydrogen as it is produced. The process is particularly well-suited for wet biomass and may be conducted at temperatures as low as 575 K. [Pg.199]

The air-steam gasification would be one of the practical conversion technologies among biomass gasification (Li et al., 2004). In general, the gasification tempera-... [Pg.199]

Comparison of pyrolysis and air-steam gasification shows that the yield of hydrogen from biomass is generally higher by air-steam gasification than that by pyrolysis, because with interaction of water and char from decomposition of biomass intermediate products are formed, which leads to more hydrogen-rich gas yield by the steam reforming. [Pg.200]

Demirbas, M.F. 2006a. Hydrogen from various biomass species via pyrolysis and steam gasification processes. Energy Sources Part A 28 245-252. [Pg.216]

See other pages where Gasification, steam biomass is mentioned: [Pg.290]    [Pg.382]    [Pg.383]    [Pg.29]    [Pg.464]    [Pg.290]    [Pg.382]    [Pg.383]    [Pg.29]    [Pg.464]    [Pg.1180]    [Pg.569]    [Pg.197]    [Pg.199]    [Pg.137]    [Pg.138]    [Pg.141]    [Pg.148]    [Pg.23]    [Pg.23]    [Pg.39]    [Pg.177]    [Pg.194]    [Pg.199]    [Pg.201]    [Pg.202]    [Pg.205]    [Pg.213]    [Pg.214]   
See also in sourсe #XX -- [ Pg.23 , Pg.24 , Pg.39 , Pg.114 , Pg.176 , Pg.177 , Pg.178 , Pg.179 , Pg.244 , Pg.245 , Pg.246 ]



SEARCH



Biomass gasification

Gasification technology steam/biomass ratio

Gasification, steam biomass catalytic

Hydrogen from Biomass via Air-Steam Gasification

Steam gasification

© 2024 chempedia.info