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Numerical Investigation of the Free and Ducted Fuel Injections under Compression Ignition Conditions

Xinlei Liu, Balaji Mohan, Hong G. Im

2020Energy & Fuels34 citationsDOI

Abstract

A ducted fuel injection (DFI) strategy has been proposed as an efficient approach to reduce the soot emission in direct-injection compression ignition engines. By injecting the fuel through a small tube within the combustion chamber, a leaner air–fuel mixture is generated compared to the conventional free spray approach, which significantly inhibits the soot formation and helps to reduce the dependence of the engine on after-treatment systems. However, the soot reduction mechanism is still not fully understood. Therefore, in this work, a three-dimensional computational investigation was performed to explain the experimental results. Four different reduced chemical mechanisms were used to simulate the reacting spray A (n-dodecane) data from both the Engine Combustion Network group and literature. An improved post-processing method was also proposed to investigate the detailed combustion feature. The results revealed that the ignition processes using different mechanisms were all dominated by the same reaction CH2O + OH = HCO + H2O. Of the four reduced mechanisms, Yao mech demonstrated the best-predicted performance. Compared to the free-spray case, the DFI case generated a longer ignition delay and lift-off length and lower soot concentration owing to the significant reduction of air entrainment and longer core jet velocity from the duct exit to the lift-off length location. In addition, the DFI case had a significantly longer low-temperature heat release region but a shorter high-temperature heat release region and a smaller core between these two regions, which helps to reduce the sooting tendency.

Topics & Concepts

SootIgnition systemCombustionMechanicsDodecaneMaterials scienceDuct (anatomy)Fuel injectionHomogeneous charge compression ignitionExhaust gas recirculationCompression ratioLift (data mining)Air entrainmentSpontaneous combustionCompression (physics)ChemistryAutomotive engineeringEnvironmental scienceThermodynamicsCombustion chamberComposite materialComputer scienceOrganic chemistryEngineeringPhysicsPathologyData miningMedicineAdvanced Combustion Engine TechnologiesCombustion and flame dynamicsCatalytic Processes in Materials Science
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