Engineering
Assuming
17%
Atmospheric Pressure
53%
Black Liquor
100%
Boiler
46%
Bubbling Fluidized Bed
53%
Carbon Capture
17%
Chemical Looping Combustion
62%
Circulating Fluidized Bed
53%
Circulating Fluidized Bed Combustion
53%
Combustion
17%
Combustor
53%
Comprehensive Mathematical Model
53%
Computational Time
13%
Delay Time
53%
Dimensional Model
13%
Dimensionality
40%
Droplet Combustion
53%
Experimental Measurement
13%
Experimental Value
17%
Flame Envelope
53%
Flue Gas
26%
Fluidization
21%
Fluidized Bed Boiler
28%
Fuel Reactor
17%
Gaseous Emission
17%
Gasification
30%
Good Agreement
31%
Heat Production
17%
Heat Transfer Surface
17%
Hydrochloric Acid
17%
Mass Loss
13%
One Dimensional
53%
Operating Parameter
21%
Optimization Approach
53%
Oxygen Carrier
53%
Porosity
53%
Power Production
17%
Predicted Result
24%
Predictive Capability
13%
Pyrolysis
26%
Recovery Boiler
24%
Rich Condition
53%
Scale Experiment
17%
Secondary Air
64%
Temperature Distribution
13%
Temperature Interval
53%
Temperature Profile
24%
Thermal Conversion
71%
Three-Dimensional Models
53%
Wheat Straw
13%
Keyphrases
Air Jet
53%
Air Staging
53%
Alkali Metal Complexes
13%
Ammonia Combustion
53%
Ammonia Concentration
26%
Biomass Particle
13%
Biomass Type
13%
Boiler Model
15%
Char Porosity
13%
Chemical Looping
53%
Chlorine Compounds
13%
Circulating Fluidized Bed Combustion
53%
Combined Influence
13%
Combustion Reactivity
10%
Dense Bed
10%
Envelope Flame
53%
Field Test Data
10%
Flow Structure
10%
Fluidization State
21%
Fuel NO
53%
High Heating Rate
13%
HO-2
53%
Hybrid Mathematical Model
10%
Ignition Delay Time
53%
Ilmenite
53%
Ilmenite Oxygen Carrier
53%
Model Dimensionality
26%
Molasses
53%
N 2O
26%
Oxygen Carrier Aided Combustion
26%
Particle Scale Modeling
53%
Potassium Compounds
26%
Predictive Ability
13%
Pressure Profile
10%
Pyrolysis
53%
Pyrolysis Performance
13%
Rate Distribution
13%
Reduced Error
26%
Restricted Mechanisms
26%
Secondary Air
10%
Secondary Air Injection
10%
Single Particle Model
53%
Spray Combustion
53%
Tertiary Air
30%
Thermal Conversion
53%
Thermal NO
23%
Thermal NO Formation
53%
Thermally Thick
13%
Wet Condition
53%
Wheat Straw Pellets
13%