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Cellulosic glycols: Identification and Prevention of Catalyst Deactivation
Thimo Daniel Jozef te Molder
Sustainable Process Technology
Research output
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Thesis
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PhD Thesis - Research UT, graduation UT
374
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Chemistry
Acetate
50%
Alcohol
25%
Ash
25%
Atom
25%
Biomass
100%
Biomass Pretreatment
25%
Catalyst
75%
Cellulose
25%
Chemical Reaction Product
25%
Contaminant
25%
Ethanol
25%
Ethylene Glycol
100%
Glycol
100%
Heterogeneous Catalyst
25%
Hydrogenation
75%
Lignin
100%
Metal Catalyst
25%
Mixture
50%
Monoatomic Dication
25%
Nitrogen
25%
Organic Acid
25%
Organic Molecule
25%
Particle Size
25%
Poison
50%
Procedure
100%
Reaction Step
25%
Solid
25%
Solvent
100%
Structure
25%
Sulfur
50%
Tungstate
75%
Washing
50%
Water Type
50%
Woody Biomass
25%
Chemical Engineering
Acetic Acid
50%
Alcohol
25%
Catalyst Deactivation
100%
Cellulose
25%
Ethanol
25%
Ethylene Glycol
100%
Glycol
100%
Hydrogenation
75%
Hydrogenolysis
100%
Lignin
100%
Nitrogen
25%
Organic Acid
25%
Sugar
50%
Sulfur
50%
Water
50%
Material Science
Catalyst Deactivation
100%