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Growth Mechanisms of Nanostructured Titania in Turbulent Reacting Flows
Sean C. Garrick
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
7
Scopus citations
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Dive into the research topics of 'Growth Mechanisms of Nanostructured Titania in Turbulent Reacting Flows'. Together they form a unique fingerprint.
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Engineering
Chemical Sensor
100%
Turbulent Flow
100%
Gas-Phase
100%
Flow Condition
100%
Growth Mechanism
100%
Reacting Flow
100%
Potential Core
100%
Particle Dynamic
100%
Particle Surface
100%
Specific Surface Area
100%
Direct Numerical Simulation
100%
Particle Size Analysis
100%
Keyphrases
Coagulation
100%
Growth Mechanism
100%
Turbulent Reacting Flows
100%
Nanostructured Titanium
100%
Condensation
80%
Growth Rate
40%
Rutile
40%
Fluid Dynamics
20%
Turbulent Flow
20%
Chemical Sensor
20%
Chemical Dynamics
20%
Antimicrobial
20%
Nanostructures
20%
Flow Condition
20%
Particle Size
20%
Direct numerical Simulation
20%
Particle Dynamics
20%
Particle Size Distribution
20%
Photoinduced
20%
Hydrolysis
20%
Core-collapse
20%
Turbulent Mixing
20%
Particle Surface
20%
Particle Field
20%
Titanium Tetrachloride
20%
Gas-phase Synthesis
20%
Potential Core
20%
High Specific Surface Area
20%
Planar Jet
20%
Condensational Growth
20%
Thermal Dynamics
20%
Fluid Field
20%
Space Phase
20%
Material Science
Titanium Dioxide
100%
Reacting Flow
100%
Nucleation
42%
Titanium
14%
Particle Size Analysis
14%
Turbulent Flow
14%
Gas Phase Synthesis
14%
Enzymatic Hydrolysis
14%
Chemical Engineering
Titanium Dioxide
100%