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Predicting the physical properties of biodiesel for combustion modeling
W. Yuan,
A. C. Hansen
, Q. Zhang
Agricultural and Biological Engineering
Carl R. Woese Institute for Genomic Biology
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Keyphrases
Physical Properties
100%
Combustion Modeling
100%
Biodiesel Properties
100%
Published Data
66%
Biodiesel
66%
Combustion Chamber
66%
High Temperature
33%
Vapor Pressure
33%
Surface Tension
33%
Prediction Accuracy
33%
Combustion Model
33%
Combustion Process
33%
Spray Combustion
33%
Fuel Properties
33%
Latent Heat of Vaporization
33%
Spray Atomization
33%
Liquid Viscosity
33%
Biodiesel Combustion
33%
Relative Comparison
33%
Engineering
Biodiesel
100%
Combustion Modeling
100%
Combustion Chamber
40%
Latent Heat
20%
Tension Surface
20%
Surface Density
20%
Vaporization
20%
Accurate Prediction
20%
Predicted Result
20%
Early Phase
20%
Combustion
20%
Atomisation
20%
Combustion Event
20%
Liquid Viscosity
20%
Chemical Engineering
Latent Heat
100%
Combustion
100%
Atomizer Nozzle
100%