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Modelling of injection processes in ladle metallurgy
Hessel-Jan Visser
Research output
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Thesis
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Dissertation (TU Delft)
1111
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Dive into the research topics of 'Modelling of injection processes in ladle metallurgy'. Together they form a unique fingerprint.
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Engineering
Injection Process
100%
Ladle Metallurgy
100%
Hot Metal
100%
Models
52%
Development
17%
Reactor
11%
Nuclear Reactor
11%
Hot Metal Desulfurization
11%
Aluminum Killed Steel
11%
Flow Field
11%
Convection
11%
Sulphur Content
5%
Metal Bath
5%
Iron Droplet
5%
Rate Equation
5%
Steel Bath
5%
Current Flow
5%
Mechanisms
5%
Windows
5%
Stagnant Zone
5%
Good Agreement
5%
Low Level
5%
Specific Surface Area
5%
Thermochemical Process
5%
Final Product
5%
Size of Particle
5%
Calcium Treatment
5%
Converter Process
5%
Experiments
5%
Recirculation Zone
5%
Good Prediction
5%
Reactor Vessel
5%
Ladle Treatment
5%
High Concentration
5%
Solubility
5%
Energy Transport
5%
Reaction Zone
5%
Generic Model
5%
Material Science
Metallurgy
100%
Metal
100%
Particle
89%
Spring Steel
52%
Magnesium
36%
Calcium
36%
Droplet
15%
Nucleation
10%
Surface
10%
Aluminum
10%
Liquid Metal
5%
Magnesium Oxide
5%
Microscopy
5%
Metallurgical Process
5%
Temperature
5%
Air
5%
Surface Area
5%
Al2O3
5%
Oxidation Reaction
5%
Iron Ore
5%
Iron
5%
Titanium
5%
Chemical Engineering
Magnesium
100%
Calcium
100%
Sulfur
85%
Desulfurization
57%
Bubble
42%
Flotation
28%
Iron
14%
Titanium
14%
Iron Ore
14%
Oxygen
14%
Temperature
14%
INIS
metallurgy
100%
magnesium sulfides
42%
magnesium
26%
calcium sulfides
21%
desulfurization
21%
flotation
10%
sulfur content
5%
thermochemical processes
5%
liquid metals
5%
energy transport
5%
magnesium oxides
5%
specific surface area
5%
reactor vessels
5%