For vehicles using E5 rather than E0, the average fuel consumption and emission differences are small. For CO, VOC and NOx the derived average differences are 0.5%,聽鈭?%and 7%, respectively. For FFVs using E85 rather than E5, the emission differences become even smaller for VOC and NOx, but greater for CO. The derived average emission differences are in this case 18%,聽鈭?%and 5%for CO, VOC and NOx, respectively. In both comparative cases there is a large variation in the emission difference values calculated for the individual cars. The large standard deviations introduce some uncertainties in the final averages computed for each emission component.
The vehicle based emissions are made up for two fossil fuel baseline scenarios (FS), characterised by high and low traffic growth rates. For each FS, two biofuel scenarios (BS1, BS2) are presented. BS1 reaches the Danish policy targets (10%biofuel share in 2020). BS2 is more ambitious (25%in 2030). By definition the biofuel part of the combusted fuel is CO2 neutral and the maximum CO2 emission difference between FS and BS2 becomes 27%in 2030. As predicted by the vehicle specific emission differences the calculated emission impacts of using bio ethanol are small for NOx, VOC and CO. Instead, for FS, BS1 and BS2 large emission reductions are due to the gradually cleaner new sold gasoline cars and the decline in total mileage until the mid-2010s.