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Unstable combustion and high cyclic variations of the in-cylinder pressure associated with low engine running smoothness and high emissions are mainly caused by cyclic variations of the fresh charge composition, the variability of the ignition and the fuel mass. These parameters affect the inflammation, the burn rate and thus the whole combustion process. In this paper, the effects of fluctuating fuel mass on the combustion behavior are shown. Small two-stroke engines require special measuring and testing equipment, especially for measuring the fuel consumption at very low fuel flow rates as well as very low fuel supply pressures. To realize a cycle-resolved measurement of the injected fuel mass, fuel consumption measurement with high resolution and high dynamic response is not enough for this application.

Optical measurement techniques were successfully appointed in four stroke combustion diagnostics because of low interaction and high efficiency. In the field of high speed small engines only less experience exists concerning optical measurement. These engines require sophisticated measurement techniques concerning available space and resolution. Numerous investigations with different measurement techniques to analyze the combustion will be presented in this paper. Engine operation, combustion phenomenons and the limits of some techniques are shown by means of concrete examples. The use of fibre optic endoscopes allows the analysis of flame propagation. Furthermore it is possible to locate glow ignition. By means of spectroscopic measurement the mixture preparation and burning temperature curves could be analyzed by adding special reactants to the fuel.

One of the most significant current discussions worldwide is the anthropogenic climate change accompanying fossil fuel consumption. Sustainable development in all fields of combustion engines is required with the principal objective to enhance efficiency. This certainly concerns the field of hand-held power tools as well. Today, two-stroke SI engines equipped with a carburetor are the most widely used propulsion technology in hand-held power tools like chain saws and grass trimmers. To date, research tended to focus on two-stroke engines with rich mixture setting. In this paper the advantages and challenges of leaner and/or lean operation are discussed. Experimental investigations regarding the influence of equivalence ratio on emissions, fuel consumption and power have been performed. Accompanying 3D-CFD simulations support the experiments in order to gain insight into these complex processes. The investigations concentrate on two different mixture formation processes, i.e.