Engineering
Low-Temperature
100%
Flow Reactor
100%
Lignite
100%
Char Surface
100%
Ash Fusion Temperature
100%
Gasification
100%
Specific Surface Area
50%
Minor Effect
50%
Char Reactivity
50%
Entrained Flow Gasifier
50%
Gasifiers
50%
Reaction Model
50%
Reaction Zone
50%
Temperature Data
50%
Kinetic Model
50%
Reactor Operation
50%
Micropore
50%
Graphitization
50%
Pyrolysis
50%
Active Site
50%
Pulverized Fuel
50%
Mineral Matter
50%
Coal Measure
50%
Melting Point
50%
Keyphrases
High Temperature
100%
Entrained Flow Gasification
100%
Coal Properties
100%
Char Properties
100%
Low Temperature
33%
Residence Time
33%
Entrained Flow Reactor
33%
Intrinsic Reactivity
33%
Lignite
33%
Ash Fusion Temperature
33%
Specific Surface Area
16%
Detailed Chemical Kinetics
16%
Temperature Effect
16%
Carbon Atom
16%
Gas Atmosphere
16%
Chemical Reaction
16%
Practical Experience
16%
Reaction Kinetics
16%
Thermal Analysis
16%
Active Sites
16%
Pyrolysis
16%
Operation Conditions
16%
Minor Effect
16%
Pulverized Fuel
16%
Char Reactivity
16%
Entrained Flow Gasifier
16%
Mineral Matter
16%
Gasifier
16%
Pilot-scale Reactor
16%
Long Residence Times
16%
Reaction Model
16%
Volatile Yield
16%
Micropore Structure
16%
Reactor Operation
16%
Temperature Data
16%
Coal Conversion
16%
Physical Reactions
16%
Reaction Zone
16%
Very High Pressure
16%
Graphitization
16%
Actual Conditions
16%
Deactivation
16%
Chemical Engineering
Pyrolysis
100%
Chemical Kinetics Characteristics
100%
Gasification
100%
Reactor Operation
100%