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An efficient and economical method to increase the performance of four stroke engines can be supercharging by compressing the intake air with the help of the bottom side of the piston. This publication describes parts of a research project with the target to develop a supercharged four stroke engine with a closed loop lubrication system for the crank train also including the lubrication system for the cylinder head. With the help of a thermodynamic engine analysis, the influence of the crankcase pump on the engine performance behavior and the distribution of losses has been researched and discussed, with the supercharged engine being compared to different naturally aspirated competitors.

Future emission regulations for two wheeler vehicles driven by small capacity engines will include the cold start characteristics and the durability behavior. [1] Based on the European homologation cycle ECE R47 and an additional cold start test cycle, a number of scooters driven by 50cc engine concepts in combination with different exhaust gas after treatment strategies have been analyzed and evaluated. The test series have been performed with the help of a CVS measurement system according the European homologation instruction and in addition with the help of an online emission recorder measurement.

Based on the fundamental analysis of the two-stroke process and the first results of the 3D-CFD simulation (Paper No: SETC 2005-32-0098), the development of a small capacity two-stroke engine is the subject of this publication. The developed 50 cm3 two-stroke engine is applied with a low pressure fuel injection system and allows, due to the special positioning of the fuel injector, two different scavenge modes. The first mode is a standard homogenous scavenge mode and the second one is for a stratified scavenged engine operation. Both modes can be achieved only by the adjustment of the injection timing without any restrictions concerning possible phasing. The system only deals with one fuel injector; special constraints concerning the transition between stratified and homogenous operation are not required. Any possible mixture can be applied between stratification and homogenous mode.