Hydrogen production by biomass gasification in supercritical water with a fluidized bed reactor
作者: Y LU , H JIN , L GUO , X ZHANG , C CAO
DOI: 10.1016/J.IJHYDENE.2008.07.082
关键词:
摘要: Abstract Hydrogen production by biomass gasification in supercritical water (SCW) is a promising technology for utilizing high moisture content biomass, but reactor plugging critical problem the tubular reactor. A novel SCW fluidized bed system was developed successfully State Key Laboratory of Multiphase Flow Power Engineering (SKLMF) to prevent and it designed temperature up 923 K pressure 30 MPa. Model compound (glucose) real (corn cob) were gasified under conditions generate hydrogen-rich fuel gas performance testing new conducted. The product composed H2, CH4, CO2, CO small amount C2H4 C2H6 obtained. effects solution concentration, temperature, oxidant concentration on studied. 30 wt% glucose 18 wt% corn cob feedstocks continually stably not observed. results showed that using has many advantages good prospects.
elsevier.com
sci-hub.se 参考文章(37)
Philip A. Marrone, Glenn T. Hong, SUPERCRITICAL WATER OXIDATION Environmentally Conscious Materials and Chemicals Processing. pp. 385- 453 ,(2007) , 10.1002/9780470168219.CH13
Michael Modell, Processing methods for the oxidation of organics in supercritical water ,(1980)
L GUO, Y LU, X ZHANG, C JI, Y GUAN, A PEI, Hydrogen production by biomass gasification in supercritical water: A systematic experimental and analytical study Catalysis Today. ,vol. 129, pp. 275- 286 ,(2007) , 10.1016/J.CATTOD.2007.05.027
J GADHE, R GUPTA, Hydrogen production by methanol reforming in supercritical water: Catalysis by in-situ-generated copper nanoparticles International Journal of Hydrogen Energy. ,vol. 32, pp. 2374- 2381 ,(2007) , 10.1016/J.IJHYDENE.2006.10.050
Masaru Watanabe, Hiroshi Inomata, Mitsumasa Osada, Takafumi Sato, Tadafumi Adschiri, Kunio Arai, Catalytic effects of NaOH and ZrO2 for partial oxidative gasification of n-hexadecane and lignin in supercritical water Fuel. ,vol. 82, pp. 545- 552 ,(2003) , 10.1016/S0016-2361(02)00320-4
Paul T. Williams, Jude Onwudili, Composition of Products from the Supercritical Water Gasification of Glucose: A Model Biomass Compound Industrial & Engineering Chemistry Research. ,vol. 44, pp. 8739- 8749 ,(2005) , 10.1021/IE050733Y
Ali Sınaǧ, Andrea Kruse, Valentin Schwarzkopf, Key Compounds of the Hydropyrolysis of Glucose in Supercritical Water in the Presence of K2CO3 Industrial & Engineering Chemistry Research. ,vol. 42, pp. 3516- 3521 ,(2003) , 10.1021/IE030079R
Peijun Jiang, Xukun Luo, Tsao-Jen Lin, Liang-Shih Fan, High temperature and high pressure three-phase fluidization—bed expansion phenomena Powder Technology. ,vol. 90, pp. 103- 113 ,(1997) , 10.1016/S0032-5910(96)03204-4
Douglas C. Elliott, L. John Jr. Sealock, Eddie G. Baker, Chemical Processing in high-pressure aqueous environments. 3. Batch reactor process development experiments for organics destruction Industrial & Engineering Chemistry Research. ,vol. 33, pp. 558- 565 ,(1994) , 10.1021/IE00027A012
A. Kruse, T. Henningsen, A. Sınaǧ, J. Pfeiffer, Biomass Gasification in Supercritical Water: Influence of the Dry Matter Content and the Formation of Phenols Industrial & Engineering Chemistry Research. ,vol. 42, pp. 3711- 3717 ,(2003) , 10.1021/IE0209430