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An experimental study was conducted on in-use and new, Indian two-wheelers to study the effect of gasoline composition (olefins, aromatics and benzene) on exhaust mass emissions. Exhaust emissions of benzene were also measured. The study was conducted on six makes of new and in-use, two-wheelers consisting of popular 2-stroke and 4-stroke, mopeds, scooters and motorcycles. Three test fuels, a high olefin gasoline, a high aromatic gasoline and a Euro-III equivalent gasoline were used for the study. High olefin test gasoline contained 26.5% olefins, 10.3% aromatics and 0.3% benzene. High aromatic test gasoline contained 0.9% olefins, 61.9% aromatics and 1.5% benzene. Euro-III test gasoline contained 15.9% olefins, 37.4% aromatics and 0.9% benzene. Intake system deposit study was also conducted on 4-stroke motorcycles and two-stroke scooters having separate lubrication, using two fuels, i.e. high olefin gasoline and Euro-III gasoline, with and without the use of multi-function additives.

Field trials were conducted on two-stroke engine powered two-wheelers with 5%, 10 % ethanol and 3 % methanol. The performance and emissions of vehicles operating on these fuels were compared to those with neat gasoline up to 20,000 km. No significant change in fuel economy was observed with 5 % ethanol and 3 % methanol, however about 1.1 % loss was observed with 10 % ethanol. Emission test conducted after mileage build-up showed reduction of carbon monoxide (CO) with 5 % and 10 % ethanol, while increase of CO was observed with 3% methanol. Total hydrocarbon emissions increased on mileage build-up with all the test fuels. Merit rating of engine components after 20,000 km indicated that the ratings were better for 5 % ethanol blended gasoline. Startability and drivability problems were observed with 3% methanol after completing 10,000 km.