Upgrading of syngas derived from biomass gasification: A thermodynamic analysis Academic Article

abstract

• Hydrogen yields in the syngas produced from non-catalytic biomass gasification are generally low. The hydrogen fraction, however, can be increased by converting CO, CH 4 , higher hydrocarbons, and tar in a secondary reactor downstream. This paper discusses thermodynamic limits of the synthesis gas upgrading process. The method used in this process is minimization of Gibbs free energy function. The analysis is performed for temperature ranges from 400 to 1300 K, pressure of 1-10 atm (0.1-1 MPa), and different carbon to steam ratios. The study concludes that to get optimum H 2 yields, with negligible CH 4 and coke formation, upgrading syngas is best practiced at a temperature range of 900-1100 K. At these temperatures, H 2 could be possibly increased by 43-124% of its generally observed values at the gasifier exit. The analysis revealed that increasing steam resulted in a positive effect. The study also concluded that increasing pressure from 1 to 3 atm can be applied at a temperature >1000 K to further increase H 2 yields. 2009 Elsevier Ltd. All rights reserved.

authors

• Fernando, Sandun

published proceedings

• BIOMASS & BIOENERGY

author list (cited authors)

• Haryanto, A., Fernando, S. D., Pordesimo, L. O., & Adhikari, S.

citation count

• 76

complete list of authors

• Haryanto, Agus||Fernando, Sandun D||Pordesimo, Lester O||Adhikari, Sushil

publication date

• January 2009

publisher

• Elsevier  Publisher

published in

• Biomass and Bioenergy  Journal

keywords

• Coking
• Equilibrium Composition
• Gasification
• Gibbs Free Energy Minimization
• Hydrogen
• Methanation
• Syngas
• Water Gas Shift Reaction

Digital Object Identifier (DOI)

• 10.1016/j.biombioe.2009.01.010

start page

• 882

end page

• 889

volume

• 33

issue

• 5

URL

• http://dx.doi.org/10.1016/j.biombioe.2009.01.010

user-defined tag

• 7 Affordable and Clean Energy