Engineering
Microwave Plasma
100%
CO2 Conversion
100%
Energy Input
100%
Energy Conservation
100%
Energy Efficiency
100%
Nonequilibrium
100%
Reduction
100%
Plasma Reactor
100%
Conversion Efficiency
66%
Production
33%
Gas Mixture
33%
Reactor
33%
Plasma Property
33%
Energy Conversion
33%
Gas Flowrate
33%
Reaction Scheme
33%
Performance
33%
Catalyst
33%
Surface
33%
Density
33%
Microwave
33%
Temperature
33%
Lower Energy
33%
Gas Composition
33%
INIS
microwave radiation
100%
reduction
100%
reactors
100%
plasma
100%
hydrogen
100%
carbon dioxide
100%
equilibrium
100%
conversion
50%
energy
30%
energy efficiency
30%
gases
20%
mixtures
10%
dissociation
10%
electricity
10%
production
10%
oxygen
10%
wave propagation
10%
chemical reactions
10%
electron density
10%
power
10%
values
10%
carbon monoxide
10%
decomposition
10%
atoms
10%
emission spectroscopy
10%
flow rate
10%
saturation
10%
electron temperature
10%
gas flow
10%
performance
10%
catalysts
10%
Keyphrases
Specific Energy Input
100%
Microwave Plasma Reactor
100%
Feed Gas
66%
High Conversion
66%
CO2 Utilization Efficiency
66%
High Specific Energy
66%
Conversion Energy
33%
Microwave Plasma
33%
Plasma Discharge
33%
High Electron Density
33%
Low Energy
33%
Carbon Dioxide Reduction
33%
Carbon Monoxide Production
33%
Gas Mixture Ratio
33%
H2O Content
33%
Dominant Channel
33%
Composition Ratio
33%
Surfatron
33%
O Atom
33%
CO2 Decomposition
33%
Chemical Engineering
CO2 Conversion
100%
Microwave
100%
Hydrogen
100%
Plasma Property
33%
Carbon Dioxide
33%
Oxygen
33%
Carbon
33%
Temperature
33%
Material Science
Carbon Dioxide
100%
Gas Flow
10%
Carrier Concentration
10%
Carbon Monoxide
10%
Emission Spectroscopy
10%
Temperature
10%
Saturation
10%
Catalyst
10%
Gas Mixture
10%
Surface
10%
Gas
10%
Chemistry
Optical Emission Spectroscopy
16%
Electricity
16%
Plasma Property
16%
Physics
Electron Energy
11%
Optical Emission Spectroscopy
11%
Carbon Monoxide
11%
Gas Flow
11%