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Diffusion flame studies of solid fuels with nitrous oxide
Paige K. Nardozzo
, Terrence L. Connell
,
J. Eric Boyer
,
Richard A. Yetter
, Gregory Young
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
13
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Scopus citations
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Keyphrases
Diffusion Flame
100%
Nitrous Oxide
100%
Solid Fuel
100%
N 2O
100%
Oxidizer
80%
Flame Structure
60%
Hydroxyl-terminated Polybutadiene
40%
Regression Rate
40%
Fuel Regression Rate
40%
Pyrolysis Zone
20%
Radical Formation
20%
Elevated Pressure
20%
Numerical Model
20%
Heat Release
20%
Atmospheric Pressure
20%
Similarity Structure
20%
Spatial Domain
20%
Mass Flux
20%
Motor Fuel
20%
Fuel Pyrolysis
20%
Temperature Rise
20%
Flame Temperature
20%
Small Region
20%
Exothermic Peak
20%
Momentum Flux
20%
Spatial Regions
20%
Hybrid Motor
20%
Fast Kinetics
20%
Surface Temperature Gradient
20%
Counterflow Diffusion Flame
20%
Counterflow
20%
Exothermicity
20%
Fuel Oxidation
20%
Engineering
Diffusion Flame
100%
Oxidizer
100%
Solid Fuel
100%
Pyrolysis
50%
Momentum Flux
25%
Good Agreement
25%
Elevated Pressure
25%
Numerical Model
25%
Heat Release
25%
Temperature Increase
25%
Flame Temperature
25%
Spatial Domain
25%
Stagnation Plane
25%
Hybrid Motor
25%
Environment Pressure
25%
Temperature Gradients
25%
Atmospheric Pressure
25%
Mass Transport
25%
Thermal Gradient
25%
Solid Fuel Combustion
25%
Material Science
Oxide Compound
100%
Surface (Surface Science)
100%
Oxidation Reaction
66%
Polybutadiene
66%