Engineering
Energy Engineering
100%
Internal Combustion Engine
94%
Atomisation
69%
Orifice
59%
Ignition
51%
Stroke Cycle
48%
Experimental Observation
42%
Methane
41%
Initial Condition
38%
Phase Change Material
38%
Homogeneous Nucleation
37%
Air Mixture
36%
Experimental Result
36%
Spark Ignition
34%
Exhaust Gas
33%
Theoretical Study
33%
Engine Performance
32%
Stroke Engine
31%
Engine Speed
31%
Diesel Engine
30%
Explosion Limit
28%
Expansion Chamber
28%
Spark Plug
27%
Scavenging
26%
Combustion
25%
Ignition Delay
25%
Energy Dissipation
24%
Corona Discharge
23%
Spark Ignition Engine
23%
Good Agreement
23%
Conservation Equation
22%
Crankcases
21%
Electric Field
21%
Reaction Scheme
21%
Energy Source
19%
Specific Power
19%
Ignition Engine
19%
Rod
19%
Impact Velocity
19%
Droplet Size
18%
Mathematical Model
18%
Surface Mount Technology
17%
Bubble Growth
17%
Drop Size
16%
Vibration Analysis
16%
Gas Exchange Process
16%
Compression Ignition
16%
Battery (Electrochemical Energy Engineering)
15%
Gas Composition
15%
Tension Surface
15%
Keyphrases
Internal Combustion Engine
63%
Two-stroke Engine
61%
Orifice
47%
Spark Ignition Engine
47%
SI Engine
43%
Flash Boiling
43%
Explosion Limits
42%
Gasoline
42%
Engine Speed
40%
Spark Ignition
38%
Combustion
38%
Homogeneous nucleation
37%
Flash Boiling Atomization
36%
Phase Change Material
35%
Diesel Engine
33%
Gas Exchange
32%
Expansion Chamber
32%
Two-stroke
31%
Scavenging Process
26%
Combustion Process
26%
Methane-air Mixture
26%
Micro Aerial Vehicle
26%
Spark Plug
25%
Fuel Consumption
25%
Sauter Mean Diameter
25%
Ignition
24%
Oxygen Delivery System
23%
Oxyhydrogen
23%
Crankcase
23%
Ignition Delay Time
23%
Spray Forming
23%
Small Droplets
23%
Engine Load
22%
Spray Characteristics
22%
Atomization
22%
Cyclic Variation
21%
Operation Conditions
21%
Hydrogen Enriched
21%
Piston
21%
Drop Size Distribution
20%
Stroke Cycle
19%
Engine Performance
19%
Dissolved CO2
19%
Droplet Size
18%
Engine Design
18%
Spark Discharge
18%
Specific Power
17%
Fuel Blends
17%
Propellant
17%
Atomizer
17%