Hydrothermal upgrading of biomass to biofuel; studies on some monosaccharide model compounds

Carbohydrate Research

Volumn 339, Issue 10, 2004, Pages 1717-1726

  Srokol, Zbigniew ^a   Bouche, Anne Gaëlle ^a   Van Estrik, Anton ^a   Strik, Rob C J ^a   Maschmeyer, Thomas ^a,b   Peters, Joop A ^a  

^a DELFT UNIVERSITY OF TECHNOLOGY   (Netherlands)

^b UNIVERSITY OF SYDNEY   (Australia)

Author keywords

Glucose; Renewables; Subcritical reactions; Sustainable energy

Indexed keywords

CARBOXYLIC ACIDS; CATALYSIS; FORMING; FUELS; GLUCOSE; HYDROLYSIS; HYDROTHERMAL SYNTHESIS; ISOMERIZATION; MOLECULAR WEIGHT;

BIOFUEL; FORMIC ACID;

BIOMASS;

1,2,4 BENZENETRIOL; ACETALDEHYDE; ACETIC ACID; ACRYLIC ACID; ALDEHYDE; BIOFUEL; FORMIC ACID; FURFURAL; GLUCOSE; GLYCERALDEHYDE; GLYCOGEN; LACTIC ACID; MONOSACCHARIDE; OXYGEN;

ARTICLE; BIOMASS; CARBONYLATION; CATALYSIS; CATALYST; DEHYDRATION; FRAGMENTATION REACTION; HYDRODYNAMICS; HYDROLYSIS; MATHEMATICAL COMPUTING; MOLECULAR MODEL; MOLECULAR WEIGHT; PRIORITY JOURNAL; REACTION ANALYSIS; TEMPERATURE DEPENDENCE; THERMODYNAMICS;

ACETALDEHYDE; ACETIC ACID; ACRYLATES; BIOMASS; BIOTECHNOLOGY; CARBON; CATALYSIS; CHROMATOGRAPHY, HIGH PRESSURE LIQUID; ENERGY-GENERATING RESOURCES; FORMIC ACIDS; FURALDEHYDE; FURANS; GLUCOSE; GLYCERALDEHYDE; HEAT; HYDROLYSIS; HYDROQUINONES; KINETICS; LACTIC ACID; MAGNETIC RESONANCE SPECTROSCOPY; MODELS, CHEMICAL; MONOSACCHARIDES; PRESSURE; TEMPERATURE; TETROSES; TIME FACTORS;

EID: 3042660982     PISSN: 00086215     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.carres.2004.04.018     Document Type: Article

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