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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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Agriculture & Biology
combustion
75%
biodiesel
69%
physical properties
57%
latent heat
14%
prediction
13%
atomization
13%
vapor pressure
12%
surface tension
11%
volatilization
11%
engines
10%
researchers
8%
temperature
8%
viscosity
7%
liquids
6%
methodology
2%
Engineering & Materials Science
Biodiesel
74%
Physical properties
63%
Viscosity of liquids
20%
Vapor pressure
17%
Atomization
16%
Vaporization
16%
Latent heat
15%
Surface tension
14%
Temperature
11%
Engines
9%
Medicine & Life Sciences
Biofuels
100%
Vapor Pressure
28%
Temperature
25%
Volatilization
24%
Surface Tension
23%
Viscosity
19%
Hot Temperature
13%
Research Personnel
12%
Earth & Environmental Sciences
physical property
55%
modeling
29%
vaporization
11%
surface tension
10%
vapor pressure
10%
spray
9%
engine
9%
viscosity
7%
liquid
6%
trend
5%
simulation
4%
comparison
4%
temperature
3%