Chemistry
Reaction Temperature
48%
Dioxygen
41%
Biomass
34%
Reaction Yield
34%
Procedure
32%
Black
32%
Biorefinery
32%
Acid
32%
Liquefaction
32%
Electrolyte
27%
Saw
27%
Dust
27%
Gibbs Free Energy
27%
Carboxylic Acid
23%
Reactor
18%
Dissolution
16%
Solid
16%
Heat
13%
Water Type
13%
Hydrolysis
13%
Sodium Carbonate
13%
Oxidation Reaction
13%
Organic Acid
13%
Salt
9%
Chemical Reaction Product
9%
Supercritical
9%
Saturation
9%
Debye Temperature
9%
Reduction
9%
Error
9%
Lignin
9%
Solubility
9%
Ion
9%
Dehydration
6%
Solid Waste
6%
Catalyst
6%
Carbon
6%
Chemical Reaction
6%
Alkali Metal
6%
Metal Catalyst
6%
Reaction Mechanism
6%
Organic Carbon
6%
Bio-Oil
6%
Weight
6%
Gas
6%
Furan
6%
Engineering
Black Liquor
60%
Supercritical Water Gasification
60%
Reactor
54%
Pulp
44%
Integration
42%
Economic Feasibility
30%
Biorefineries
30%
Biomass
28%
Techno-Economic Assessment
27%
Lignocellulosic Biomass
27%
Feasibility Study
27%
Scale Production
27%
Inconel
22%
Economics
21%
Stainless Steel
19%
Production
17%
Products
14%
Biomass Conversion
13%
Yields
11%
Feedstock
10%
Bio-Oil
9%
Losses
8%
Gasification
8%
Investment Cost
7%
Operating Cost
6%
Sensitivity Analysis
5%
Profitability
5%
Surfaces
5%
Process Condition
5%
Energy Price
5%
Combined Heat and Power Production
5%
Environmental Performance
5%
Cogeneration Combined Cooling Heating Power
5%
Energy Production
5%
Illustrates
5%
Heterogeneous Catalyst
5%
Residence Time
5%
Efficiency
5%
Process Simulation
5%
Surface Increase
5%
Chemical Engineering
Water
100%
Supercritical
83%
Acid
55%
Temperature
44%
Oxidation Reaction
39%
Lignin
36%
Hydrogen Production
35%
Sodium
34%
Specific Heat
27%
Sodium Chloride
27%
Gibbs Free Energy
27%
Hydrogen
23%
Sugar
20%
Oxygen
20%
Dissolution
16%
Hydrolysis
13%
Carbon
9%
Biomass Conversion
9%
Carbonate
6%
Organic Carbon
6%
Phenol
6%
Tetrahydrofuran
6%
Ethanol
6%