High-yield hydrogen production by supercritical water gasification of various feedstocks: Alcohols, glucose, glycerol and long-chain alkanes

Authors
Susanti, Ratna F.Dianningrum, Laras W.Yum, TaewooKim, YunjeLee, Youn-WooKim, Jaehoon
Issue Date
2014-10
Publisher
ELSEVIER
Citation
CHEMICAL ENGINEERING RESEARCH & DESIGN, v.92, no.10, pp.1834 - 1844
Abstract
Continuous supercritical water gasification (SCWG) of various feedstocks of C1-C16 was conducted to produce hydrogen-rich gas. These feedstocks represent model compounds of biomass such as methanol/ethanol (alcohol-type), glucose and glycerol (byproducts of biodiesel synthesis), and model compounds of petroleum fuels such as iso-octane/n-octane (gasoline), n-decane/n-dodecane (jet fuels) and n-hexadecane (diesel). Almost complete gasification of all the feedstocks was achieved at 25 MPa, 740 degrees C and 10 wt% with low total organic carbon values of their liquid effluents. The hydrogen gas yields of each feedstock were very similar to the theoretical equilibrium yields estimated by Gibbs free energy minimization. SCWG at different gasification temperatures (650 and 740 degrees C) and concentrations (10 and 20 wt%) revealed that methanol and ethanol (alcohols), the simple oxygenated hydrocarbons, were easier to be gasified, producing negligible amounts of liquid products, when compared with long-chain hydrocarbons (iso-octane and n-decane) under the identical conditions. When the feedstock concentration was increased from 10 to 20 wt%, the equilibrium hydrogen ratio from iso-octane gasification decreased from 1.02 to 0.79 while that of n-decane increased from 1.12 to 1.50, implying that a branched hydrocarbon may be more resistant to gasification in supercritical water. (c) Crown Copyright 2014 Published by Elsevier B.V. on behalf of The Institution of Chemical Engineers. All rights reserved.
Keywords
BIOMASS GASIFICATION; MODEL COMPOUNDS; HEATING RATE; METHANOL; OXIDATION; CATALYST; HYDROPYROLYSIS; DECOMPOSITION; ETHANOL; ACID; BIOMASS GASIFICATION; MODEL COMPOUNDS; HEATING RATE; METHANOL; OXIDATION; CATALYST; HYDROPYROLYSIS; DECOMPOSITION; ETHANOL; ACID; Supercritical water gasification; Hydrogen; Equilibrium yield; Hydrocarbon
ISSN
0263-8762
URI
https://pubs.kist.re.kr/handle/201004/126291
DOI
10.1016/j.cherd.2014.01.003
Appears in Collections:
KIST Article > 2014
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