Chemical Engineering
Hydrogenation
100%
Methane
89%
Acid
86%
Hydrogen
82%
Methanol
68%
Carbonate
66%
Carboxylic Acid
65%
Iron
60%
Temperature
43%
Carbon Dioxide
42%
Carbon Monoxide
41%
Acetic Acid
40%
Glycerol
40%
Distillation
40%
Calcination
40%
Methanol Synthesis
36%
Mass Transfer
33%
Mineral
27%
Emulsification
26%
Nickel
26%
Lactic Acid
20%
Chemical Engineering
20%
Sodium
20%
Chemisorption
20%
Magnesia
20%
Carbon Dioxide Utilization
20%
Sulfuric Acid
20%
CO2 Conversion
20%
Surfactant
18%
Carbon
11%
Oxide
11%
Propionic Acid
11%
Hydrocarbon
10%
Formic Acid
9%
Transesterification
8%
Copper
6%
Bubble Column
6%
Alkaline Earth Metal
6%
Deionized Water
6%
Emulsion
6%
Nickel Ion
6%
Water-Gas Shift
6%
Engineering
Hydrogenation
60%
Application
43%
Catalyst
40%
Reduction
30%
Hydrogen Source
20%
Direct Reduction
20%
Iron Carbonate
20%
Entrainers
20%
Extractive Distillation
20%
Hydrogen Engine
20%
Demonstrates
20%
Fuel
20%
Beneficiation
20%
Methanation
20%
Diesel Engine
15%
Aftertreatment System
10%
Acronym
10%
Energy Demand
10%
High Energy
10%
Experiments
10%
Process Gas
6%
Temperature
6%
Elevated Temperature
6%
Process Condition
6%
Optimized Process
6%
Fields
6%
Engine
5%
Combustion
5%
Exhaust Gas
5%
Engine Cylinders
5%
Power Density
5%
Measurement
5%
Reformates
5%
Small Number
5%
Calculation Procedure
5%
Performance
5%
Optimization
5%
Characteristics
5%
Potassium Sulfate
5%
High Salt
5%
Crude Glycerol
5%
Extraction Process
5%
Algorithm
5%
Biofuels
5%
Equilibrium Data
5%
Elevated Pressure
5%
Low Pressure
5%
Low-Temperature
5%
Material Science
Carbon Dioxide
100%
Catalyst
83%
Magnesium Oxide
80%
Carbon Monoxide
28%
Nickel
27%
Metal
26%
Mineral
24%
Temperature
23%
Protective Atmosphere
21%
Calcination
20%
Catalysis
20%
Iron Ore
20%
Materials
15%
Water
11%
Solvent
10%
Catalyst Activity
8%
Metal Oxide
7%
Transition Metal
7%
Surface Active Agent
6%
Adsorption
6%
Gas
5%