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Glucose production from anhydrosugars by acid hydrolysis
Paula Helena Blanco Sanchez
, Jai Lad
,
Anthony V Bridgwater
College of Engineering and Physical Sciences
Energy and Bioproducts Research Institute (EBRI)
Chemical Engineering & Applied Chemistry
Aston University
Research output
:
Chapter in Book/Published conference output
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Conference publication
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Keyphrases
Levoglucosan
100%
Anhydrosugars
100%
Acid Hydrolysis
100%
Glucose Production
100%
Solid Acid Catalyst
60%
Hydrolysis
40%
Sulfuric Acid
40%
Bio-oil
40%
Catalyst Type
40%
Acid Catalyst
40%
Hydrolysis Process
40%
Lignocellulosic Materials
40%
Liquid Acid
40%
Glucose Yield
40%
Reaction Time
20%
Aldehydes
20%
Environmentally Friendly
20%
Fast Pyrolysis
20%
Pyrolysis Oil
20%
Thermal Processing
20%
Pyrolysis Conditions
20%
Residence Time
20%
As(V)
20%
Reaction Types
20%
Phase Separation
20%
Furan
20%
Reaction Temperature
20%
Butanol
20%
Polymer Resin
20%
Catalytic Properties
20%
Valuable Chemicals
20%
Heteropolyacid
20%
5-Hydroxymethylfurfural (5-HMF)
20%
Carbon-based
20%
Material Conditions
20%
Corrosion Risk
20%
Bio-oil Composition
20%
Cellobiose
20%
Potential Corrosion
20%
Catalyst Ratio
20%
Levulinic Acid
20%
Glucopyranose
20%
Bioethanol
20%
Monomeric Sugars
20%
Liquid Catalyst
20%
Chemical Platform
20%
Acid Zeolites
20%
Gas Oil
20%
Chemistry
Levoglucosan
100%
Acid Hydrolysis
100%
Acid Catalyst
100%
Enzymatic Hydrolysis
80%
Bio-Oil
80%
formation
40%
Aldehyde
20%
Sulfuric Acid
20%
Fast Pyrolysis
20%
Pyrolysis
20%
Furfural
20%
Phase Separation
20%
Biofuel
20%
Furan
20%
Butene
20%
Catalyst Property
20%
Catalyst Type
20%
Cellobiose
20%
Corrosion Potential
20%
Heteropolyacid Polymer
20%
D-Glucopyranose
20%
Chemical Engineering
Pyrolysis
100%
Aldehyde
50%
Fast Pyrolysis
50%
Furfural
50%
Phase Separation
50%
Butene
50%
Sulfuric Acid
50%
Catalyst Ratio
50%
Material Science
Enzymatic Hydrolysis
100%
Zeolite
16%
Biofuel
16%
Corrosion Potential
16%