论文信息 - The Effects of Combustion Chamber Design and Compression Ratio on Emissions, Fuel Economy and Octain Number Requirement

The Effects of Combustion Chamber Design and Compression Ratio on Emissions, Fuel Economy and Octain Number Requirement

Four combustion chamber designs and three compression ratios (8:1, 9:1 and 10:1) were investigated for their emission, fuel economy, and octane number requirement characteristics using a 1.6 liter (96.9 CID) 4 cylinder engine. The "High Turbulence Type" combustion chambers, which included swirl (piston swirl) and/or squish, indicated better fuel economy under emission and octane number requirement constraints. Teh HC emission of the combustion chamber with squish and swirl was lower than that of the combustion chambers with squish alone. The time resolved measurement of HC emissions expained the difference in the exhaust process of these unburned hydrocarbons. A compression ratio of 9:1 was the best compromise for optimum fuel economy. /GMRL/

Tokuta Inoue | K. Matsumoto | K. Nakanishi | T. Okumura

[1] K. Nakanishi,et al. The Effects of Charge Dilution on Combustion and Its Improvement-Flame Photograph Study , 1975 .

[2] John B. Heywood,et al. Time-Resolved Measurements of Hydrocarbon Mass Flowrate in the Exhaust of a Spark-Ignition Engine , 1972 .

[3] David P. Hoult,et al. High Reynolds number flow in a moving corner , 1970, Journal of Fluid Mechanics.