Comparisons of the hydrogen-rich syngas compositions from wet rice husk slurry steam reforming reactions using different catalysts

H. P. Kuo*, S. M. Pan, H. T. Hsu

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

14 Scopus citations

Abstract

Rice husk slurry is pumped into a packed reactor and the products from the steam reforming reactions using different catalysts are studied. The steam/biomass weight ratio of such a system is between 3.47 and 5.25. The solids, liquid and gaseous products are a mass fraction of 2.8-4.1%, a mass fraction of 92.4-93.0% and a mass fraction of 3.5-4.7%, respectively. The hydrogen concentration in the gaseous product is approximate a volume fraction of 41% using the Al2O3 catalyst of a CuO mass fraction of 13%, a volume fraction of 38% using the Al2O3 catalyst of a Ni mass fraction of 13%, a volume fraction of 31% using the Al2O3 catalyst of a ZnO mass fraction of 13%, and a volume fraction of 20% using the Al2O3 catalyst at the reactor temperature of 800°C. In the reactor temperature range studied (350-800°C), the hydrogen concentration in the product stream increases monotonically with the increasing of the reactor temperature and the steam/carbon molar ratio. The value of dry gas LHV is between 9.4MJm-3 and 12MJm-3 at the reaction temperature of 600-800°C. Considering the simple catalyst used in current study, the syngas of a hydrogen volume fraction of approximate 40% is obtained by pumping the biomass slurry to carry out the catalytic steam reforming reaction.

Original languageEnglish
Pages (from-to)3025-3031
Number of pages7
JournalBiomass and Bioenergy
Volume35
Issue number7
DOIs
StatePublished - 07 2011

Keywords

  • Biomass
  • Catalytic steam reforming
  • Packed bed reactor
  • Rice husk slurry

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