Skip to main navigation
Skip to search
Skip to main content
Welcome to DTU Research Database Home
About DTU Orbit
Home
Profiles
Research units
Publications
Activities
Projects
Prizes
Press/Media
Datasets
Search by expertise, name or affiliation
Application of Fly Ash from Solid Fuel Combustion in Concrete
Kim Hougaard Pedersen
CHEC Research Centre
Department of Chemical and Biochemical Engineering
Research output
:
Book/Report
›
Ph.D. thesis
754
Downloads (Pure)
Overview
Fingerprint
Projects
(1)
Fingerprint
Dive into the research topics of 'Application of Fly Ash from Solid Fuel Combustion in Concrete'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Material Science
Coal Ash
100%
Flue Gas
66%
Surface Active Agent
33%
Pulverized Fuel
33%
Carbon Surface
33%
Mechanical Strength
33%
Oxidation Reaction
33%
Computational Fluid Dynamics
33%
Surface Tension
33%
Bituminous Coal
33%
Ash Utilization
33%
Coal Combustion
33%
Engineering
Entraining Admixture
100%
Solid Fuel Combustion
100%
Adsorption
25%
Adsorption Behavior
16%
Full Scale
4%
Scale Experiment
4%
Computational Fluid Dynamics
4%
Test Method
4%
Early Stage
4%
Flow Reactor
4%
Flue Gas
4%
Mols
4%
Passivation
4%
Kinetic Model
4%
Excess Air
4%
Fixed Bed Reactor
4%
Power Generation
4%
Oxygen Concentration
4%
Adsorption Capacity
4%
Surfactant
4%
Ozonation
4%
Carbon Oxidation
4%
Reference Value
4%
Operation Mode
4%
Tension Surface
4%
Simulated Result
4%
Pulverised Coal Combustion
4%
Extreme Condition
4%
Foam Stability
4%
Air Entrainment
4%
Ash Utilization
4%
Effective Power
4%
Coal Particle
4%
Cement Suspension
4%
Recycled Flue Gas
4%
Bubble Pressure Method
4%
Combustion
4%
Stability of Foam
4%
Bituminous Coal
4%
Black Carbon
4%
Pulverized Fuel
4%
Chemical Engineering
Solid Fuel Combustion
100%
Stability of Foam
9%
Dynamic Surface Tension
9%
Keyphrases
Foam Index
8%
Foam Stability
8%
Temperature Affect
4%
Surface Tension Measurements
4%
Recycled Flue Gas
4%
Dynamic Surface Tension
4%
Bubble Pressure
4%
Total Carbon Content
4%
Good Relationship
4%
Cement Suspension
4%
Pressure-based Method
4%