Chemical Engineering
Pyrolysis
100%
Fast Pyrolysis
51%
Hydrogenation
48%
Fructose
32%
Methanol
28%
Gas Chromatography Mass Spectrometry
26%
Gel Permeation Chromatography
22%
Hydrodeoxygenation
21%
Catalytic Pyrolysis
17%
Furfural
17%
Fatty Acids
17%
Titanium Dioxide
16%
Kinetic Study
15%
Butene
15%
Nanoparticle
13%
Sulfuric Acid
12%
Lactic Acid
12%
Phenol
12%
Precious Metal
11%
Calcination
11%
Polymerization
11%
Catalyst Deactivation
10%
Oligomer
10%
Temperature Programmed Desorption
9%
Ethylenediaminetetraacetic Acid
9%
Acetic Acid
8%
Olefin
8%
Oleic Acid
8%
Fractionation
8%
Paraffin
8%
Carboxylic Acid
8%
Activated Carbon
8%
Physisorption
7%
Xylose
7%
Ruthenium Catalyst
7%
Copolymerization
7%
Sunflower Oil
7%
Water Content
6%
Propanol
6%
Aromatic Compound
6%
Formic Acid
6%
Organic Acid
6%
Carbon Dioxide
6%
Dehydrogenation
6%
Ozonation
6%
Fenton
6%
Hydrogen Peroxide
5%
Dichloromethane
5%
Ethylbenzene
5%
Transesterification
5%
Chemistry
Hydrogenation
36%
5-Hydroxymethylfurfural
20%
Bio-Oil
18%
Pyrolysis
15%
Methanol
13%
Cerium
12%
Hydrogen
12%
Molecular Structure
11%
Fast Pyrolysis
11%
Gel Permeation Chromatography
10%
Crystal Structure
10%
Gas Chromatography Mass Spectrometry (GCMS)
10%
Ruthenium
10%
Solvent Extraction
9%
Fructose
9%
Hydrodeoxygenation
9%
Lactic Acid
8%
NMR Spectroscopy
8%
Lanthanoid Atom
8%
Molecular Mass
8%
Zirconia
8%
Titanium
7%
Catalytic Pyrolysis
7%
Phase Composition
7%
Gamma-Valerolactone
7%
Titanium Dioxide
7%
Depolymerization
7%
Surface Area
6%
Liquefaction
6%
Tetrahydrofuran
6%
Two-Dimensional Gas Chromatography
6%
Ring Opening Reaction
6%
Monomer
6%
Furfural
6%
Base
6%
Structure
6%
Jatropha
6%
Alkyne
6%
Nanoparticle
6%
Alkene
6%
Diol
5%
Elemental Analysis
5%
13C NMR Spectroscopy
5%
Silicon Dioxide
5%
P21
5%
Biorefinery
5%
Yttrium
5%
Kinetic Study
5%
Acetylide
5%
Ethylbenzene
5%
Keyphrases
5-Hydroxymethylfurfural (5-HMF)
10%
Fructose
6%
Levulinic Acid
6%
Pyrolysis Liquid
6%