Engineering
Acid Gas
100%
Natural Gas
90%
Carbon Dioxide Capture
72%
Flue Gas
54%
Energy Engineering
45%
Limitations
36%
Liquefied Natural Gas
27%
Imidazolium
27%
Fossil Fuel
27%
Greenhouse Gas
27%
Incinerator
18%
Global Warming
18%
Substituent
18%
Tasks
18%
Energy Production
18%
Mols
18%
Functional Group
18%
Power Generation
18%
Amine Solution
18%
Natural Gas Reservoirs
9%
Natural Gas Processing
9%
Scrubbing System
9%
Amine-Based Process
9%
Cryogenic Distillation
9%
Operating Cost
9%
Gas Streams
9%
Sale Gas
9%
Gas Content
9%
Operational Problem
9%
Department of Energy
9%
Coal Combustion
9%
Corrosivity
9%
Fueled Power Plant
9%
Capture Efficiency
9%
Amine System
9%
Natural Gas Liquids
9%
Gas Composition
9%
Chemical Absorption
9%
Carbon Steel
9%
Coal-Fired Boiler
9%
Capital Cost
9%
Methyldiethanolamine
9%
Good Agreement
9%
Environmental Regulations
9%
Main Source
9%
Low-Temperature
9%
Energy Density
9%
Experimental Result
9%
Natural Gas Resource
9%
Corrosion Rate
9%
Separation Gas
9%
Fossil Fuel Combustion
9%
Relative Amount
9%
Industrial Applications
9%
Melting Point
9%
Energy Conservation
9%
Climate Change
9%
Boiler
9%
Gas-to-Liquids
9%
Process Chemical
9%
Anions and Cation
9%
Energy Efficiency
9%
Eutectics
9%
Atmospheric Pressure
9%
Adsorption
9%
Emission Gas
9%
Methane
9%
Keyphrases
Non-aqueous Solvents
100%
Enhanced CO2
100%
CO2 Absorption
100%
Ionic Liquid
100%
Acid Gas
52%
Natural Gas
38%
CO2 Capture
33%
Amines
28%
Energy Emission
19%
Triethanolamine
19%
Liquefied Natural Gas
14%
Flue Gas
14%
Natural Gas Liquids
14%
Post-combustion
14%
Combustion Flue Gas
14%
Carbamate
14%
Imidazolium Ionic Liquids
14%
CO2 Solubility
14%
Anions
14%
Fossil Fuels
14%
CO2 Energy
9%
Operational Challenges
9%
Aqueous Amine
9%
Incinerator
9%
Diethanolamine
9%
Liquid Interactions
9%
CO2 Content
9%
Vol%
9%
Capture Agent
9%
Scrubbing
9%
CO2 Emissions
9%
Energy Production
9%
Greenhouse Gas
9%
Electricity Generation
9%
Crystallization
9%
CO2 Sources
9%
Amine Functional Groups
9%
Global Warming
9%
INIS
nonaqueous solvents
100%
carbon dioxide
100%
absorption
100%
ionic liquids
62%
gases
55%
capture
35%
amines
33%
natural gas
28%
emission
26%
solvents
24%
energy
17%
flue gas
13%
carbamates
8%
production
8%
solubility
8%
solutions
8%
fossil fuels
8%
cost
8%
liquefied natural gas
6%
afterburners
6%
anions
6%
ions
6%
greenhouse gases
6%
fuels
6%
liquids
6%
corrosion
6%