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Sorption enhanced steam reforming of biomass-derived compounds: process and material

Abstract

An attempt has been made to develop a flexible system to produce very pure H{sub 2} with high efficiency from renewable bio-based recourses. First, such model compounds as ethanol, glycerol, sorbitol and glucose, have been tested for H{sub 2} production via sorption enhanced steam reforming (SESR) over Co-Ni/hydrotalcite-like (HTls) derived catalyst and CaO-based CO{sub 2} acceptor. The experimental results show that all of feedstocks, even heavy feedstocks, were able to offer high H{sub 2} purity (97.3approx99.1%) and yield at low steam to carbon (S/C = 1.3approx6) ratio in comparison to the corresponding steam reforming process. In addition, the studied system also presents encouraging potential for improvement of energy efficiency. Chemical looping combustion (CLC) was coupled to the cyclic multi-step SESR process to assist the acceptor regeneration by using multifunctional Pd/Co-Ni/HTls catalyst. With coupling of CLC to SESR, H{sub 2} concentration in the gas effluent of the SESR reactions was still higher than 95 mol% on a dry basis. The assembled CLC-SESR process has inherent high efficiency in H{sub 2} production. (Author)
Authors:
Publication Date:
Jul 01, 2010
Product Type:
Thesis/Dissertation
Resource Relation:
Other Information: Doctoral theses at NTNU; ISSN 1503-8181; 2010:2; Numerical Data; Thesis or Dissertation; TH: Thesis (Ph.D); refs., figs., tabs
Subject:
37 INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY; 09 BIOMASS FUELS; DEUTERIUM; RENEWABLE ENERGY SOURCES; BIOMASS; SORPTION; CHEMICAL FEEDSTOCKS; ORGANIC COMPOUNDS; IMPURITIES; PRODUCTION; EXPERIMENTAL DATA
OSTI ID:
1010751
Research Organizations:
Norges teknisk-naturvitenskapelige universitet, Trondheim (Norway)
Country of Origin:
Norway
Language:
English
Other Identifying Numbers:
Other: ISBN 978-82-471-1918-1; TRN: NO1105118
Availability:
Available through interlibrary loan from www.bibsys.no
Submitting Site:
NW
Size:
vp.
Announcement Date:
Apr 11, 2011

Citation Formats

He, Li. Sorption enhanced steam reforming of biomass-derived compounds: process and material. Norway: N. p., 2010. Web.
He, Li. Sorption enhanced steam reforming of biomass-derived compounds: process and material. Norway.
He, Li. 2010. "Sorption enhanced steam reforming of biomass-derived compounds: process and material." Norway.
@misc{etde_1010751,
title = {Sorption enhanced steam reforming of biomass-derived compounds: process and material}
author = {He, Li}
abstractNote = {An attempt has been made to develop a flexible system to produce very pure H{sub 2} with high efficiency from renewable bio-based recourses. First, such model compounds as ethanol, glycerol, sorbitol and glucose, have been tested for H{sub 2} production via sorption enhanced steam reforming (SESR) over Co-Ni/hydrotalcite-like (HTls) derived catalyst and CaO-based CO{sub 2} acceptor. The experimental results show that all of feedstocks, even heavy feedstocks, were able to offer high H{sub 2} purity (97.3approx99.1%) and yield at low steam to carbon (S/C = 1.3approx6) ratio in comparison to the corresponding steam reforming process. In addition, the studied system also presents encouraging potential for improvement of energy efficiency. Chemical looping combustion (CLC) was coupled to the cyclic multi-step SESR process to assist the acceptor regeneration by using multifunctional Pd/Co-Ni/HTls catalyst. With coupling of CLC to SESR, H{sub 2} concentration in the gas effluent of the SESR reactions was still higher than 95 mol% on a dry basis. The assembled CLC-SESR process has inherent high efficiency in H{sub 2} production. (Author)}
place = {Norway}
year = {2010}
month = {Jul}
}