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Crankshaft torque fluctuation has been theoretically analyzed and possible sources of error have been reviewed in the cases of determining the indicated mean effective pressure (Pmi) from measurement of the flywheel angular-speed fluctuation. The specific objective of this study was to develop a new approach to determine Pmi from the crankshaft torque of a SI engine, and it has successfully proven that using an appropriate data processing for the angular-speed fluctuation, Pmi in low- to medium-speed ranges can be estimated with very high accuracy in terms of 99% or higher coefficient of correlation to the in-cylinder pressure sensor.

A novel leanburn concept, ‘Barrel-Stratification’ is proposed. Fuel is introduced into the cylinder through one of the intake ports of a dual-intake-valve engine of which the tumbling air motion is intensified by the sophisticated intake port design. Because the velocity component in the direction parallel to the axis of tumble is small, charge stratification realized during the intake stroke is maintained until the end of the compression stroke. By the effects of charge stratification and the turbulence enhancement by tumble, stable combustion is realized even at extremely lean conditions. The concept was verified by flow field analysis applying a multi-color laser sheet technique and the flame structure analysis employing the blue-end image intensification realized by the interference mirror and the short delay phosphor.

Valve noise is one of the factors that deteriorate the signal-to-noise ratio in the detection of combustion knock in spark ignition engines by means of a knock control system with a conventional knock sensor and a higher frequency band-pass filter. It was determined that one of the principal mechanisms of valve noise increase is the eccentricity between the valve seat face and the insert seat face at valve contact in addition to excess valve contact speed. One of the reasons for this eccentricity is the offset between the centers of the valve guide and insert caused by cylinder head distortion due to fastening of the cylinder head and thermal distortion of the insert. Other reasons include excess clearance caused by the abrasion of the valve guide and stem, and valve tilt increase caused by inherent valve spring bend.