Keyphrases
Natural Gas
100%
Pre-chamber
100%
Computational Optimization
100%
Heavy-duty
100%
Piston
87%
Wall Heat Transfer
50%
Heat Transfer Loss
50%
Flame Propagation
25%
Engine Efficiency
25%
Squish
25%
Turbulent Flame Propagation
25%
Piston Geometry
25%
Highwall
25%
Flame Spread Rate
12%
Jet Flame
12%
Compression Ratio
12%
Combustion Phasing
12%
Advanced Combustion
12%
Flow Motion
12%
Mixing Process
12%
Nitric Oxide Production
12%
Ejection
12%
Cylinder Liner
12%
Slowing down
12%
Computational Fluid Dynamics Simulation
12%
Exhaust Gas Recirculation
12%
Lean Mixture
12%
Combustion Stage
12%
Stoichiometric Mixture
12%
Engine Performance
12%
Near Stoichiometric
12%
Mixture Distribution
12%
Reverse Flow
12%
Nitric Oxide Emission
12%
High Thermal Efficiency
12%
Late Combustion
12%
Fast Jet
12%
Expansion Ratio
12%
Flat Bottom
12%
Piston Design
12%
Active Pre-chamber
12%
Engineering
Natural Gas
100%
Flame Propagation
100%
Turbulent Flame
50%
Walls (Structural Partitions)
50%
Engine Efficiency
50%
Engine Performance
25%
Exhaust Gas Recirculation
25%
Flame Propagation Speed
25%
Lean Mixture
25%
Combustion Stage
25%
Thermal Efficiency
25%
Computational Fluid Dynamics
25%
Mixture Distribution
25%
Reverse Flow
25%
Expansion Ratio
25%
Compression Ratio
25%