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Laser ignition of aluminum particles in water
Salil Mohan
, Luc Furet
,
Edward L. Dreizin
Chemical and Materials Engineering
Research output
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Chapter in Book/Report/Conference proceeding
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Conference contribution
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Dive into the research topics of 'Laser ignition of aluminum particles in water'. Together they form a unique fingerprint.
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Keyphrases
Aerosol Jet
66%
Aerosolized
33%
Al Particles
33%
Al Powder
33%
Aluminum Particles
100%
Aluminum Powder
33%
CFD Code
33%
Charged Particles
33%
CO2 Laser
66%
Flow Velocity
66%
Focal Spot
33%
Gas Composition
33%
Gas Jet
33%
Heating Rate
33%
HOX Transcript Antisense RNA (HOTAIR)
33%
Ignition
66%
Ignition Threshold
66%
Inert Gas
33%
Jet Velocity
33%
Laser Beams
33%
Laser Ignition
100%
Laser Power
33%
Numerical Simulation
33%
Parallel Plate Capacitor
33%
Particle Size
33%
Particle Velocity
100%
Similarity Experiment
33%
Small Opening
33%
Steam Flow
33%
Superheated Steam
100%
Top Electrode
33%
Vapor Concentration
33%
Velocity Constant
33%
Water Vapor Environment
33%
Engineering
Al Particle
20%
Al Powder
20%
Aluminum Powder
20%
Computational Fluid Dynamics
20%
Computer Simulation
20%
Experimental Result
20%
Flow Velocity
40%
Focal Spot
20%
Gas Composition
20%
Heating Rate
20%
Ignition
100%
Jet Velocity
20%
Laser Beam
20%
Laser Power
20%
Parallel Plate Capacitor
20%
Particle Velocity
40%
Steam Flow
20%
Superheated Steam
60%