Abstract
Road transport exhaust emissions represent the main sources of atmospheric pollution in urban areas, due to the growing number of circulating vehicles and travelled distances. In order to reduce this pollution source, stricter emission standards are periodically set by governments through- out the world. Consequently, the concentrations of gaseous pollutants and particulate mass to be measured during type-approval tests of new vehicles are becoming progressively lower; moreover from 2011, diesel cars have to comply with particle number limit. In order to assess emission levels of different technology vehicles and investigate the use of a particulate number measurement technique at the exhaust of very low-emitting vehicles, an experimental activity was carried out on three in-use vehicles: a diesel car equipped with a particulate trap (DPF), a hybrid gasoline-elec- tric car and a bi-fuel passenger car fuelled with compressed natural gas (CNG). Cold and hot gaseous and particulate emission factors and fuel consumption were measured during the execution of real and regulatory driving cycles on a chassis dynamometer. Particulate was characterized in terms of mass only for the diesel car and of particle number for all vehicles. The emissions measured over the NEDC show that all three vehicles comply with their standard limits, except CO for CNG passenger car and NOx for diesel car. Cold start influences CO and HC emissions and fuel consumption for all the tested vehicles and in particular for the hybrid car. The real driving cycle is the most critical pattern for the emissions of almost all pollutants. During constant speed tests, the emissions of particles of hybrid car are an order of magnitude lower than those of the CNG car.
Highlights
Despite technological improvements in internal combustion engines, fuels and after-treatment devices, pollutant emissions by on-road transport are still responsible for high levels of air pollution in urban areas due to the growing number of circulating vehicles as well as the length and number of trips undertaken
An experimental campaign was carried out for measuring gaseous and particulate emissions at the exhaust of a gasoline-electric hybrid car, a bi-fuel gasoline/natural gas vehicle and a diesel car equipped with a particulate filter (DPF), all of them homologated to Euro 4 standard
The tested vehicles were a gasoline-electric hybrid passenger car, a bi-fuel gasoline/natural gas (CNG) passenger car fuelled with compressed natural gas (CNG) during the experimental tests and a diesel car equipped with a particulate filter (DPF)
Summary
Despite technological improvements in internal combustion engines, fuels and after-treatment devices, pollutant emissions by on-road transport are still responsible for high levels of air pollution in urban areas due to the growing number of circulating vehicles as well as the length and number of trips undertaken. The harmful potential of particulate related to its size and chemical composition have been amply demonstrated [1] and the International Agency for Research on Cancer (IARC), the specialized cancer agency of the World Health Organization, announced in 2013 that particulate matter, a major component of outdoor air pollution, was classified as carcinogenic to humans (Group 1) [2]. The US National Ambient Air Quality Standards (NAAQS) for PM10/PM2.5 are more protective than European ambient air standards, while the EU has the most stringent engine and vehicle emission standards for particulates. The European Community has introduced the limit of 6 × 1011 particles/km for the diesel vehicles (Euro 5b stage from 2011) and for Gasoline Direct Injection (GDI) spark ignition engines (Euro 6 stage from 2014), by regulating the sampling and measuring protocol) [3] [4]. Up to 2017, the limit for GDI vehicles is increased of one order of magnitude (6 × 1012 particles/km)
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