Keyphrases
Internal Combustion Engine
100%
Rankine Cycle
100%
Waste Heat Recovery
100%
Cycle Basis
100%
Intracycle
100%
Combustion Chamber
28%
System Efficiency
28%
Recovered Energy
28%
Waste Heat Recovery System
28%
Air-fuel Mixture
14%
Charge Air
14%
Numerical Analysis
14%
Compression Ratio
14%
Airflow
14%
Regeneration
14%
Heat Transfer Behavior
14%
Rankine
14%
Performance Characteristics
14%
Working Fluid Selection
14%
Cycle Efficiency
14%
Combustor
14%
Energy Conversion
14%
Recovery Cycle
14%
Exhaust Heat
14%
Compression Chamber
14%
Fuel Ratio
14%
Split-type
14%
System Parameter Calibration
14%
Compression Combustion
14%
Fluid Systems
14%
Two-chamber
14%
Air Combustion
14%
Selection Parameters
14%
Thermodynamic Design
14%
One-dimensional Systems
14%
Isobaric Combustion
14%
Intake Air
14%
Quasi-isothermal Compression
14%
Operation Range
14%
Recovery Process
14%
Optimal Operation
14%
Dimensional Systems Model
14%
Engineering
Internal Combustion Engine
100%
Rankine
100%
Waste Heat Recovery System
100%
Energy Engineering
28%
Combustion Chamber
28%
System Efficiency
28%
Limitations
14%
Equivalence Ratio
14%
One Dimensional
14%
System Parameter
14%
Compression Ratio
14%
Air Flow
14%
Performance Characteristic
14%
Cycle Efficiency
14%
Air Charge
14%
Combustor
14%
Energy Conversion
14%
Dimensional System
14%
Range Operation
14%
Isothermal Compression
14%
Recovery Process
14%
Cycle Design
14%