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Over the past decade, society’s concern for the state of the environment has increased. Several actions have been taken by governments, non-governmental organizations, public and private environmental and health agencies to limit pollutant emissions. Within this context, the control of vehicle emissions has become increasingly stringent. Emission limits have been substantially reduced, and the role of unregulated emissions is increasing in importance. Ammonia is the third most abundant nitrogen compound in the atmosphere. Ammonia emissions have received special attention due to their contribution to secondary particulate matter production in the forms of ammonium nitrate (NH4NO3) and ammonium sulfate ((NH4)2SO4). The aim of this work was to evaluate the effect of fuel sulfur content on ammonia emissions in a Euro III motorcycle.

Gasoline direct injection (GDI) vehicles are considered to be one of the solutions for engine optimization with regard to fuel consumption. This combustion system potentially provides, depending on the duty cycle, an improvement in fuel economy of 5 - 10%. In Brazil, mainly due to new requirements to reduce consumption imposed by the Inovar Auto automotive regime, this technology is becoming more popular and in 2013 the first flexfuel GDI vehicle was produced. However, GDI engines tend to produce more particulate matter compared to conventional engines. The present article is based on the study of particulate matter emissions from a GDI vehicle tested according to the FTP75 (Federal Test Procedure 75) and HWFET (Highway Fuel Economy Test) cycles. The vehicle was fuelled with gasoline (A22) and with hydrated ethanol (HER). It was observed that the particulate matter formed after the combustion process is directly related to the fuel properties.