Chemical Engineering
Temperature
100%
Water
93%
Carbonization
57%
Hydrotreating
51%
Carbon
29%
Glucose
28%
Phenol
21%
Acid
19%
Paraffin
19%
Hydrogen
19%
Pyrolysis
19%
Hydrocarbon
19%
Nitrogen
19%
Oxygen
17%
Fractionation
16%
Distillation
14%
Lipid
12%
Water-Gas Shift
12%
Lignin
11%
Heating
9%
Activated Carbon
9%
Dehydrogenation
9%
Olefin
9%
Hydrogen Production
9%
Granular Activated Carbon
9%
Mass Spectrometry
9%
Methanol
9%
Catalytic Pyrolysis
9%
Thermodynamic Property
9%
Hydrodeoxygenation
9%
Gas Chromatography
9%
Organometallics
7%
Organic Carbon
6%
Cellulose
6%
Alumina
6%
Combustion
5%
Gas Chromatography Mass Spectrometry
5%
Engineering
Hydrothermal
21%
Supercritical Water Gasification
19%
Reactor
19%
Optimization
14%
Experiments
9%
Long Time
9%
Gasification
9%
Comprehensive Review
9%
Gaseous Phase
9%
Kinetic Model
9%
Mechanisms
6%
Biomass Concentration
6%
Syngas
6%
Earth and Planetary Sciences
By-Product
9%
Biomass
9%
Compost
9%
Specification
9%
Municipal Solid Waste
9%
Liquefaction
9%
Waste Collection
9%
Plant
6%