Bioethanol
Blending Reduces Nanoparticle, PAH, and
Alkyl- and Nitro-PAH Emissions and the Genotoxic Potential of Exhaust
from a Gasoline Direct Injection Flex-Fuel Vehicle
posted on 2016-10-07, 00:00authored byMaria Muñoz, Norbert
V. Heeb, Regula Haag, Peter Honegger, Kerstin Zeyer, Joachim Mohn, Pierre Comte, Jan Czerwinski
Bioethanol as an alternative fuel
is widely used as a substitute
for gasoline and also in gasoline direct injection (GDI) vehicles,
which are quickly replacing traditional port-fuel injection (PFI)
vehicles. Better fuel efficiency and increased engine power are reported
advantages of GDI vehicles. However, increased emissions of soot-like
nanoparticles are also associated with GDI technology with yet unknown
health impacts. In this study, we compare emissions of a flex-fuel
Euro-5 GDI vehicle operated with gasoline (E0) and two ethanol/gasoline
blends (E10 and E85) under transient and steady driving conditions
and report effects on particle, polycyclic aromatic hydrocarbon (PAH),
and alkyl- and nitro-PAH emissions and assess their genotoxic potential.
Particle number emissions when operating the vehicle in the hWLTC
(hot started worldwide harmonized light-duty vehicle test cycle) with
E10 and E85 were lowered by 97 and 96% compared with that of E0. CO
emissions dropped by 81 and 87%, while CO2 emissions were
reduced by 13 and 17%. Emissions of selected PAHs were lowered by
67–96% with E10 and by 82–96% with E85, and the genotoxic
potentials dropped by 72 and 83%, respectively. Ethanol blending appears
to reduce genotoxic emissions on this specific flex-fuel GDI vehicle;
however, other GDI vehicle types should be analyzed.