Method of Hydrogen Production by Biomass Gasification in the Supercritical Water

Kui Peng; Hong Xu Li

doi:10.4028/www.scientific.net/AMR.512-515.1404

Paper Titles

Generalized Predictive Control for Gas Supply System in a Proton Exchange Membrane Fuel Cell
p.1380

Hydriding and Dehydriding Kinetics of Nanocrystalline and Amorphous Mg₂₀Ni₆M₄ (M=Cu, Co) Alloys
p.1389

Hydrogen Storage in Small Size Hollow Microspheres
p.1395

Hydrogen-Production of Hydrogen-Producing Bacteria at Different Temperatures in Batch Culture
p.1400

Method of Hydrogen Production by Biomass Gasification in the Supercritical Water
p.1404

Microstructure and Self-Discharge Characteristic of Ti-Zr-V-Cr-Ni-Ce Hydrogen Storage Electrode Alloy
p.1409

Modeling of Hydrogen Production in a Stand-Alone Photovoltaic System
p.1413

Optimization of Solar Thermo-Chemical Hydrogen Production Process
p.1418

Permeation Properties and Stability of Ni-BaCe_0.4Zr_0.4Nd_0.2O_3-δ Membrane for Hydrogen Separation
p.1422

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 512-515Method of Hydrogen Production by Biomass...

Method of Hydrogen Production by Biomass Gasification in the Supercritical Water

Abstract:

Hydrogen production by biomass gasification in supercritical water has special different distinct characteristics and advantage, this technology has become one of the international research focuses in the field of hydrogen energy. This paper gives a detail introduction of the process, characteristics and route of hydrogen production by biomass gasification in supercritical water, the biomass include glucose, cellulose methanol, and other waste effluents, the catalyst innovations and reactor development have also demonstrated, the prospects of are also presented in this paper.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 512-515)

Pages:

1404-1408

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.512-515.1404

Citation:

Cite this paper

Online since:

May 2012

Authors:

Kui Peng, Hong Xu Li

Keywords:

Biomass, Gasification, Hydrogen Production, Supercritical Water

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] A. Kruse. The Journal of Supercritical Fluids, Vol. 47 (2009), p.391

Google Scholar

[2] P. Kritzer, E. Dinjus. Chemical Engineering J. Vol. 83 (2001), p.207

Google Scholar

[3] E.F Gloyna, L. Li.Waste Management Vol.13 (1993), p.379.

Google Scholar

[4] A. Emhemmed. B.I. Muhammad. International Journal of Hydrogen Energy, Vol. 35 (2010), p.5034

Google Scholar

[5] F.A.P. Voll, C.C.R.S. Rossi, C. Silva. International Journal of Hydrogen Energy, Vol. 34 (2009), p.9737

Google Scholar

[6] Y.J. Lu, L.J Guo; Ji, C.M. Zhang , X.M.; Hao, X.H.; Q.H. Yan. Int. J. of Hydrogen Energy. Vol. 31 2006, p.822

Google Scholar

[7] M. Osada, T. Sato, M.Wantabe, T. Adschiri, K. Arai. Energy and Fuels, Vol.18 (2004), pp.327-333.

Google Scholar

[8] M. Watanabe, H. Inomata, K. Arai. Biomass and Bioenergy. Vol. 22 (2002), p.405

Google Scholar

[9] A. Therdthianwong, N. Srisiriwat. The Journal of Supercritical Fluids, Vol.57 (2011), p.58

Google Scholar

[10] D. Castello, L. Fiori. Bioresource Technology, Vol.102 (2011), pp.7574-7582.

Google Scholar

[11] P. Azadi, R. Farnood. International Journal of Hydrogen Energy, Vol. 36 ( 2011)

Google Scholar

[12] A. Philip, M. Glenn, T. Hong. The Journal of Supercritical Fluids, Vol. 51 (2009), p.83

Google Scholar

[13] Y. Matsumura, T. Minowa. International J. Hydrogen Energy. Vol. 29 (2004), p.701

Google Scholar