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Levels of ambient particulate matter have become the focus of increased attention over recent years as a result of studies suggesting an association between exposure and adverse health effects. Whilst research is continuing in many areas to identify a biological mechanism whereby this association can be explained, as yet there are only hypotheses. Causal relationships between observed health effects (i.e. increased hospital admissions, mortality, respiratory or heart problems) and any specific characteristic of the ambient aerosol have yet to be confirmed. Ambient aerosol has a complex chemistry and a wide range of physical properties, most of which undergo constant modification or transformation within the atmosphere. The particles in this aerosol may have originated either from natural or anthropogenic sources and may be either primary emissions (i.e. directly emitted to the atmosphere as particles) or secondary particles - formed by reaction of gas phase components.

A joint test programme has been carried out by CONCAWE and GFC to evaluate the impact of gasoline volatility and ethanol on the driveability performance of modern European vehicles. Eight vehicles, three with DISI fuel systems and five with MPI, were tested for hot driveability performance. After screening tests, a subset of four vehicles was selected and tested for cold driveability. The latest test procedures developed by GFC were used for both hot (20, 30 and 40°C) and cold (+5 and -10°C: representative of moderate winter conditions) weather testing on climate controlled chassis dynamometers. A matrix of four hydrocarbon test fuels at two levels of DVPE and E70 was blended for the hot weather testing, and three fuels with varying E100 but essentially parallel distillation curves for the cold weather tests. For each hydrocarbon fuel, two other fuels containing 10% ethanol were made, one splash blend and one with matched volatility.