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Modeling of nitromethane flame structure and burning behavior
Eric Boyer
, Kenneth K. Kuo
Mechanical Engineering
Research output
:
Contribution to journal
›
Conference article
›
peer-review
77
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Scopus citations
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Dive into the research topics of 'Modeling of nitromethane flame structure and burning behavior'. Together they form a unique fingerprint.
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Keyphrases
Burning Behavior
100%
Burning Rate
50%
Condensed Phase
25%
Decomposition Mechanism
25%
Detailed Model
25%
Elementary Reaction
50%
Equilibrium Composition
25%
Equilibrium Value
25%
Final Temperature
25%
Flame Structure
100%
Flame Zone
25%
Formaldehyde
25%
Fortran
25%
Gas Phase
25%
Gas-phase Kinetics
25%
High Concentration
50%
High Performance
25%
Intermediate Species
75%
Micro-thermocouple
25%
Miller
25%
Monopropellant
25%
Nitromethane
100%
Oxidizer
25%
Predictive Models
25%
Reduced Toxicity
25%
Region-based
25%
Sensitivity Analysis
25%
Species Concentration
25%
Species Profiles
25%
Structure Behavior
100%
Temperature Concentration
25%
Temperature Profile
50%
Vaporization
25%
Engineering
Burning Rate
66%
Detailed Model
33%
Elementary Reaction
66%
Final Temperature
33%
Flame Zone
33%
Gas-Phase
66%
Good Agreement
33%
Measured Rate
33%
Methane
100%
One Dimensional
33%
Oxidizer
33%
Reach Equilibrium
33%
Temperature Profile
66%
Thermocouple
33%
Vaporization
33%
Agricultural and Biological Sciences
Methane
100%
Thermocouple
33%
Material Science
Monopropellants
100%
Chemical Engineering
Methane
100%