Abstract
The mixture formation by fuel spray impingement (OSKA system) was applied to a small direct injection diesel engine in order to reduce the wall quenching-induced emissions, i.e. the emissions of THC and soluble organic fractions (SOF). Experiments were carried out using a single cylinder engine, fitted with various piston cavity geometries, ran under a wide range of compression ratios and fuel injection specifications. The piston cavity was designed as a centrally located re-entrant type. The combination of the high squish flow and the weak penetration of the OSKA spray was very effective in reducing harmful emissions. A short ignition delay, under the retarded fuel injection timing, was obtained because of the high compression ratio. The OSKA DI diesel engine showed reduced NOx, smoke, and THC emissions without deterioration of the fuel consumption compared to modern DI diesel engines used in automotive applications. While PM emissions were partially reduced, simultaneous reduction of NOx and PM was not obtained.