Engineering
Nonthermal Plasma
100%
Energy Efficiency
66%
Energy Conservation
66%
Power Supply
33%
Room Temperature
33%
Removal Efficiency
33%
Public Concern
33%
Manufacturing Process
33%
Climate Change
33%
Temperature Range
33%
Global Warming Potential
33%
Semiconductor Manufacturing
33%
Effective Approach
33%
Plasma Technology
33%
Climatic Change
33%
Keyphrases
Fluorinated Compounds
100%
Non-thermal Plasma
21%
Thermal Plasma
21%
Thermal Catalysis
21%
Energy Efficiency
14%
Combustion
14%
Plasma Catalysis
14%
Plasma Technology
14%
Room Temperature
7%
High Temperature
7%
Effective Approach
7%
Wide Temperature Range
7%
Removal Efficiency
7%
Low Energy
7%
Public Concern
7%
Climate Change
7%
CO2 Emissions
7%
Global Warming Potential
7%
Catalyst Deactivation
7%
Semiconductor Manufacturing Process
7%
Perfluorocarbon
7%
Destruction Efficiency
7%
Power Supply
7%
Fuel Consumption
7%
Hydrofluoric Acid
7%
Catalytic Technologies
7%
High Energy Consumption
7%
High CO2
7%
TORCH
7%
Efficiency of Activity
7%
Chemical Engineering
Carbon Dioxide
100%
Plasma Technology
100%
Hydrofluoric Acid
100%
Material Science
Catalysis
100%
Carbon Dioxide
11%
Fuel Consumption
11%