Engineering
Computational Fluid Dynamics
100%
Scale Experiment
100%
Pulverized Fuel
100%
Alkali Salt
100%
Boundary Layer
50%
Hot Gas
50%
Nodes
50%
Full Scale
50%
Empirical Model
50%
Calculation Procedure
50%
Numerical Modeling
50%
Fuel System
50%
Integrated Gasification Combined Cycle Plant
50%
Hot Gas Cleaning
50%
Steam Generator
50%
Combined Cycle Power Plant
50%
Superheater
50%
Gasification
50%
Ficks Law of Diffusion
50%
Cleaning System
50%
Saturation Pressure
50%
Pressure Coefficient
50%
Decreasing Temperature
50%
Pulverized Fuel Boiler
50%
Ash Particle
50%
Isothermal
50%
Vaporization
50%
Dynamic Models
50%
Diffusion Coefficient
50%
Operational Problem
50%
Keyphrases
Modeling Approach
100%
Condensation
100%
Laboratory-scale Experiment
100%
Heat Exchange
100%
CFD Modeling
100%
Alkali Vapor
100%
Vapor Condensation
100%
Alkali Salts
40%
Combined Cycle Power Plant
40%
Heterogeneous Condensation
40%
Condensation Rate
40%
Wall Temperature
20%
Boundary Layer
20%
Hot Gas
20%
Pressure Coefficient
20%
High Sensitivity
20%
Node number
20%
Calculation Procedure
20%
Diffusion Coefficient
20%
Numerical Modeling
20%
Computational Fluid Dynamics Modeling
20%
Boiler
20%
Pulverized Fuel
20%
Integrated Gasification Combined Cycle
20%
Alkali
20%
Operational Problems
20%
Pulverised Fuel Combustion
20%
Vaporization
20%
Fly Ash Particles
20%
Combustion System
20%
Superheater Tubes
20%
Fuel System
20%
Condensation Model
20%
Steel Ring
20%
Integrated Gasification
20%
Isothermal Evaporation
20%
Pulverized Fuel Boiler
20%
Gradually Decreasing Temperature
20%
Diffusion Law
20%
Two-zone
20%
Saturation Pressure
20%
Hot Gas Cleaning System
20%