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Means for reducing the particulate matter (PM) from swirl chamber type diesel engines were searched out, and the reducing mechanisms were examined using an optically accessible engine. The following points were clarified in this study. 1. At light load, the suppression of the initial injection rate reduces PM, because SOF is reduced by the change in ignition point and smoke is reduced by the retarded flowout of the dense soot from the swirl chamber 2. Under medium and high load conditions, the main cause of the exhaust smoke is fierce spray-wall impingement which leads to fuel adhesion on the wall and the stagnation of a rich fuel-air mixture. 3. Enlarging swirl chamber volume ratio suppresses the formation of dense soot in the swirl chamber. In the main chamber, however, the soot oxidization becomes insufficient due to the mixing effect reduced by the essentially decreased chamber depth. 4.

This paper is a study of the On-Board Diagnosis (OBD), a constituent element of the automotive electronic diagnosis system, together with its support functions. With regard to the OBD, we have listed and explained the principles of various diagnostic methods and their advantages and disadvantages. In addition, we have also commented on design factors and concepts. As to the support functions, nameiy diagnostics communication and diagnostic scan tool, drive recorder, and also IT, we have made recommendations on their future development in view of the functional division of roles with respect to the OBD in light of their respective characteristics.

With the aim to successively remove particulate matter (PM) from exhaust emissions of diesel engines, non-thermal plasma (NTP) system is now under development for practical use. The model analyzer for generating plasma with unit-cell of the NTP reactor, was designed and developed for the quantitative analysis of discharged plasma. The novel NTP reactors with newly developed porous and wave-foil electrodes show excellent plasma specifics such as low Inception voltage for plasma discharge and strong radiation luminance. A virtual vehicle simulator using an engine dynamometer, aiming at the evaluation of the plasma PM removal properties in various modal driving schedules, was constructed. It is confirmed that the novel NTP reactor shows not only excellent PM removal properties but also minimized pressure loss. Especially, PM removal properties are strongly influenced by the increase in plasma radiation luminance.

Small bore diesel engines often adopt a two-valve cylinder head and a non-central injector layout to expand the port flow passage area. This non-central injector layout causes asymmetrical gas flow and fuel distribution, resulting in worse heat losseses and a less homogenous fuel-air mixture than an equivalent four-valve cylinder head layout with a central injector. To improve these problems Toyota applied a new concept which was characterized by tapered shape design on the upper portion of the piston and low compression ratio to achieve more homogeneous gas flow and fuel-air mixture. This paper describes the impact of new combustion concept and the mechanism of the improvement by 3D-CFD analysis and optical measurement.

Small bore diesel engines often adopt a two-valve cylinder head and a non-central injector layout to expand the port flow passage area. This non-central injector layout causes asymmetrical gas flow and fuel distribution, resulting in worse heat losses and a less homogenous fuel-air mixture than an equivalent four-valve cylinder head layout with a central injector. This paper describes the improvement of piston bowl geometry to achieve a more homogeneous gas flow and fuel-air mixture. This concept reduced fuel consumption by 2.5% compared to the original piston bowl geometry, while also reducing NOx emissions by 10%.