Engineering
Superheater
100%
Recovery Boiler
71%
Melting Temperature
50%
Temperature Gradient
46%
Temperature Gradient
44%
Thermal Gradient
44%
Steel Surface
33%
Induced Change
33%
Exposure Time
33%
Melting Behavior
32%
Boiler
28%
Black Liquor
22%
Steel Sample
22%
Incineration
22%
Full Scale
16%
Cross Section
15%
Flue Gas
11%
Illustrates
11%
Input Data
11%
Adjacent Layer
11%
Deposition Mechanism
11%
Cooled Sample
11%
Heat Transfer Surface
11%
Porosity
11%
Generating Temperature
11%
Corrosion Product
11%
Power Generation
11%
Melting Point
11%
Molten Phase
11%
Corrosivity
11%
Induced Corrosion
11%
Gas-Phase
7%
Porous Layer
7%
Operational Problem
7%
Concentration Gradient
6%
Experimental Result
5%
Phase Composition
5%
Good Agreement
5%
Exchanger
5%
Keyphrases
Deposit Type
22%
PbCl2
22%
AISI 316L
22%
Scaling Method
22%
Deposition Study
22%
Atmospheric Temperature
16%
Boiler Superheater
14%
Initial Deposition
11%
Homogeneous Condensation
11%
Induced Diffusion
11%
Local Chemical Composition
11%
Aging Mechanism
11%
Deposition Mechanism
11%
Inner Region
11%
Species Migration
11%
Steel Sample
11%
Porous Deposits
11%
Cl-induced Corrosion
11%
Aging Behavior
7%
Time-dependent Processes
7%
Deposit Morphology
7%
Diffusive Transport
7%
Local Melting
5%
Cold Temperature
5%
Step Model
5%
Melt Percolation
5%
Profile Changes
5%
Heat Exchanger Materials
5%
Local Composition
5%
Local Phase
5%
Composition Profile
5%
Physical Changes
5%
Local Change
5%
Sootblowing
5%
Chloride Migration
5%
Hot Temperature
5%
Boiler Tube
5%
Type Migration
5%
Laboratory Environment
5%
Enhanced Corrosion
5%
Hot Tube
5%
Earth and Planetary Sciences
Morphology
44%
Scanning Electron Microscopy
22%
Flue Gas
22%
Vapor Phase
22%
Sulfation
22%
Zone Melting
22%
Percolation
22%
Shedding
22%
Heat Exchanger
22%
Zone Melting
22%
Air Temperature
22%
Laboratory Scale
22%
Vaporization
7%
Liquid Phase Sintering
7%
Phase Equilibria
7%
Sodium Chloride
7%
Eutectics
7%