A sequential chemical kinetics-CFD-chemical kinetics methodology to predict HCCI combustion and main emissions

Engineering

• Computational Fluid Dynamics 100%
• Kinetic 100%
• Combustion 100%
• Temperature Profile 50%
• Ignition 50%
• Ignition Timing 50%
• Peak Pressure 50%
• Models 50%
• Determines 50%
• Input Parameter 33%
• Autoignition 33%
• Experimental Result 33%
• Pressure Rise Rate 33%
• Peak Heat Release Rate 33%
• Kinetic Model 33%
• Mass Distribution 33%
• Engines 33%
• Boundary Layer 16%
• Simulation Result 16%
• Good Agreement 16%
• Kinetics Analysis 16%
• Peak Temperature 16%
• Computing Time 16%
• Accurate Prediction 16%
• Fuel 16%
• Development 16%
• Efficiency 16%
• Simulation 16%
• Characteristics 16%
• Couplings 16%
• Estimation 16%
• Power Output 16%
• Biogas 16%

INIS

• combustion 100%
• zones 100%
• kinetics 100%
• emission 100%
• ignition 54%
• peaks 54%
• comparative evaluations 27%
• heat 18%
• simulation 18%
• engines 18%
• autoignition 18%
• intake 18%
• mass distribution 18%
• methane 9%
• carbon dioxide 9%
• fuels 9%
• air 9%
• efficiency 9%
• power 9%
• resolution 9%
• output 9%
• charges 9%
• coupling 9%
• prediction 9%
• boundary layers 9%
• cylinders 9%
• valves 9%
• burns 9%
• stratification 9%
• biogas 9%