design, optimization and energetic efficiency of producing hydrogen-rich gas from biomass steam gasification

;Po-Chih Kuo;Wei Wu

doi:10.3390/en8010094

design, optimization and energetic efficiency of producing hydrogen-rich gas from biomass steam gasification

Clicks: 206

ID: 197613

2014

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Abstract

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In this article, the conceptual design of biomass steam gasification (BSG) processes using raw oil palm (ROP) and torrefied oil palm (TOP) are examined in an Aspen Plus simulator. Through thermodynamic analysis, it is verified that the BSG process with torrefied feedstock can effectively enhance the hydrogen yield. When the heat recovery design is added into the BSG process, the system energetic efficiency (SEE) is significantly improved. Finally, an optimization algorithm with respect to SEE and hydrogen yield is solved, and the optimum operating conditions are validated by simulations.

Reference Key	kuo2014energiesdesign, Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	;Po-Chih Kuo;Wei Wu
Journal	acs combinatorial science
Year	2014
DOI	10.3390/en8010094 Searching for DOI...
URL	http://www.mdpi.com/1996-1073/8/1/94 https://doi.org/10.3390/en8010094
Keywords	hydrogen production thermodynamic analysis

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