Keyphrases
Flash Boiling Atomization
100%
Composite Droplets
66%
Heating Rate
65%
Micro-explosion
61%
Nucleation Temperature
54%
Puffing
53%
Methane Clathrate
50%
Negative Pressure
50%
Heterogeneous nucleation
41%
Expansion Chamber
40%
Combustion
38%
Atomization
38%
Rapid Heating
37%
Hydrate Particles
33%
Drop Impact
33%
Effervescent Atomization
33%
HFE-7100
33%
Heat Loss
33%
Critical Heat Flux
33%
Bubble Growth
31%
Flash Boiling
30%
Drop Size Distribution
30%
Droplet Size
29%
Fine Spray
29%
Atomizer
28%
Diameter Ratio
26%
Onset of nucleate Boiling
25%
Flame Propagation
25%
Temperature Profile
25%
Bubbly Mixture
25%
Homogeneous nucleation
24%
Choked Flow
23%
Thermoluminescent Dosimeter
23%
Spinodal
22%
Pressure Drop
22%
Liquid Atomization
22%
Micro-electro-mechanical Systems
20%
Explosion Limits
20%
Pressure Condition
20%
Upper Reservoir
20%
Reservoir Temperature
20%
Flow Condition
20%
Nucleation Growth
20%
Superheat Degree
19%
Water Temperature
19%
Orifice
18%
Atmospheric Pressure
18%
Microheater
18%
Fuel Droplet
17%
LiF Crystal
16%
Engineering
Atomisation
100%
Experimental Observation
54%
Heating Rate
51%
Negative Pressure
50%
Experimental Result
44%
Heterogeneous Nucleation
38%
Bubble Growth
34%
Methane
33%
Flame Propagation
33%
Heat Conduction Equation
33%
Continuity Condition
33%
Heat Losses
33%
Drop Diameter
33%
Boundary Condition
33%
Critical Heat Flux
33%
Temperature Profile
33%
Initial Condition
33%
Flat Surface
33%
Tensiles
33%
Rapid Heating
33%
Nucleate Boiling
31%
Atmospheric Pressure
28%
Orifice
27%
Expansion Chamber
27%
Transients
23%
Energy Engineering
23%
Thermoluminescence
23%
Diameter Ratio
22%
Channel Wall
20%
Choked Flow
20%
Reservoir Temperature
20%
Homogeneous Nucleation
20%
Rate of Heating
20%
Phase Particle
20%
Droplet Size
19%
Area Ratio
19%
Slip Velocity
18%
Flow Condition
18%
Model Prediction
16%
Predicted Value
16%
Ignition
16%
Mechanical Systems
16%
Engine Performance
16%
Downers
16%
Engine Power
16%
Conductive
16%
Theoretical Study
16%
Diesel Fuel
16%
Smooth Surface
16%
Impaction
16%