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The advantages of gasoline direct-injection are intake air cooling due to fuel vaporization which reduces knocking, additional degrees of freedom in designing a stratified injection mixture, and capability for retarded ignition timing which shortens catalyst light-off time. Stratified mixture combustion designs often require complicated piston shapes which disturb the fluid flow in the cylinder, leading to power reduction, especially in turbocharged gasoline direct-injection engines. Our research replaced the conventional shell-type shallow cavity piston with a dog dish-type curved piston that includes a small lip to facilitate stratification and minimize flow disturbance. As a result, stable stratified combustion and increased power were both achieved.

A new combustion concept for DISI gasoline engine was developed to achieve superior performances of high power and low environmental load. It realizes a high specific power and a good lean combustion performance simultaneously by utilizing a DI spray jet effectively to accelerate the in-cylinder tumble flow. Injection direction and configuration of the DI spray was optimized for intensification of the in-cylinder flow and high mixture homogeneity, a thin fan-shaped spray generated by a slit nozzle was adopted. As a result, combustion was accelerated by increase of in-cylinder turbulence intensity, and homogeneity of air-fuel mixture was improved. In addition, in-cylinder fuel wall wetting, which causes emission of particulate matter (PM) and oil dilution, was drastically reduced by improvement of the fan-shaped spray.