Effect of Fuel Ethanol Content on Exhaust Emissions of a Flexible Fuel Vehicle

The European Union is aiming at increasing the market share of biofuels in order to improve the security of supply of transport fuel and to reduce CO2 emissions. The target is to reach a 10% of biofuels on energy basis in the transport sector by 2020. Bioethanol and biodiesel represent the only biofuels currently available on the market in big quantities and technologically mature and bioethanol is probably the most widely use alternative fuel in the world (mainly in Brazil and in the USA). According to the literature, the success of bioethanol as alternative fuel is linked to some clear advantages but there are also disadvantages: Advantages: - Very high octane number - As a renewable fuel produces lower CO2 emissions compare to conventional fuels - It reduces some pollutant emissions - Its ozone forming potential is lower than that of gasoline and diesel - It contains no sulphur and is biodegradable Disadvantages: - It increases evaporative emissions (when blended with gasoline at low percentages) - Because of the lower vapour pressure and high latent heat of vaporization of neat ethanol, it makes cold start in cooler climates more difficult. - It increase acetaldehyde emissions but reduces those of formaldehyde. - E85 vehicles give higher unregulated emissions (ethane and acetaldehyde) than gasoline fuelled vehicles. Due to its characteristics neat ethanol cannot be used as transport fuel mainly because its high heat of vaporization and low volatility make cold start very difficult especially in cold climates. The most common way to overcome this problem is to blend ethanol with a small fraction of a much more volatile fuel such as gasoline; the most popular blend is E85 which consists of 85% ethanol and 15% gasoline by volume. Although E85 has been extensively used worldwide, engine manufacturers guarantee problem-free operation without any modification only to catalyst equipped cars fuelled with gasoline containing no more than 5% ethanol. However modern catalyst-equipped cars are probably able to run without any material problem with up to 20% ethanol which seems to be the upper limit for cold climates. An experimental activity has been planned and carried out at the JRC to investigate the emissions of a flexible fuel vehicle using different ethanol/gasoline blends. The results of this experimental programme are briefly summarized here below. The details of the work and the complete results are described in the first part of this document ( In particular, three different fuels have been tested: a standard commercial summer gasoline marketed in Italy used as base fuel and two gasoline/ethanol blends, which have been obtained by splash blending ethanol in the standard gasoline. The two gasoline/ethanol blends contained respectively 10% ethanol (E10) and 85% ethanol (E85). The test vehicle was a passenger car currently marketed in Europe and one of the most popular models belonging to the flexible fuel vehicle category. Emission tests were carried out both following the European certification procedure (NEDC cycle) and using a US driving cycle (US 06). Regulated and unregulated emissions were measured.JRC.H.4-Transport and air qualit

Effect of Biodiesel Fuels on Pollutant Emissions from EURO 3 LD Diesel Vehicles (1)

Transport is a key factor in modern economies. However, the EU transport system is currently not sustainable, and in many respects moving away from sustainability rather than towards it. The European Environment Agency highlights in particular the sector's growing CO2 emissions that threaten the EU meeting its target under the Kyoto protocol. Transport also represents a key challenge to sustainability in terms of depletion of resources and European competitiveness, safety and security concerns, especially due to the monolithic reliance on a single energy source. As stated in the Commission’s November 2000 Green Paper on security of supply, in 1998 energy consumption in the transport sector was to blame for 28 % of emissions of CO2, the leading greenhouse gas. In particular, road transport alone accounts for 84 % of the CO2 emissions attributable to transport. Furthermore, in terms of security of energy supply, there is growing concern for the current situation of transport sector that depends on crude oil for more than 99%. In the above mentioned Green Paper the European Commission has also identified the measures to tackle these problems and, among them, one the most important is the promotion of alternative fuels; the ambitious target that has been proposed by the Commission is to replace 20% of conventional fuels with substitute fuels by 2020. According to the Commission White Paper “European transport policy for 2010: time to decide” the most promising forms are biofuels in the short and medium term, natural gas in the medium and long term and hydrogen in the very long term. On the basis of the above mentioned Papers, in 2003 the European Union has adopted two Directives, the EC/2003/30 and the EC/2003/96, with the overall objective of promoting the use of biofuels. The first Directive set the targets for market share of biofuels for 2005 (2% in terms of energy content) and 2010 (5.75%); the second Directive set the framework for tax incentives for the promotion of biofuels. Biodiesel is currently the most produced biofuel in Europe: the production in 2003 was about of 1500000 (EU25) tons with an increase of more than 32% compared to the 2002 figure. Within this policy framework, the Joint Research Centre and the European Biodiesel Board have decided to cooperate to investigate the effect of biodiesel on pollutant emissions from diesel engines. In particular, in this report the effect of biodiesel fuels produced from different raw materials on the regulated emissions from light duty diesel vehicles are compared to the effect on other regulated and unregulated pollutants.JRC.H.4-Transport and air qualit

Joint Research Centre 2017 light-duty vehicles emissions testing

This report summarises the results of the pilot study on the market surveillance of light-duty vehicles. The emission performance and the CO2 emissions of 15 vehicles are presented. The methodology for vehicle compliance checks defined in the Guidance note published by the European Commission was applied and discussed.JRC.C.4-Sustainable Transpor

An analysis of possible socio-economic effects of a Cooperative, Connected and Automated Mobility (CCAM) in Europe

A Cooperative, Connected and Automated Mobility (CCAM) is likely to have significant impacts on our economy and society. It is expected that CCAM unveils new and unprecedented mobility opportunities that hold the potential to unlock a range of safety, environmental and efficiency benefits. At the same time, it is anticipated that it will bring deep changes in the labour market, progressively making some occupations and skills less relevant, while at the same time opening up new opportunities for different businesses and requiring new and more advanced skills. With Europe accounting for 23% of global motor vehicle production (Acea Statistics, 2016) and almost 72% of inland freight transported by road in Europe (European Commission, 2017a), the full deployment of Connected and Automated Vehicle (CAV) technologies is expected to have a substantial impact on the European economy. The economic impacts of CAVs will go far beyond the automotive industry, into sectors like insurance, maintenance and repair or health, among others. While it is clear that CAVs could offer unique opportunities for value creation, it is also essential to acknowledge that they might imply a substantial transformation of our industries and our social and living systems. The study is aimed at analysing the value at stake for both industry and society as a result of a transition towards a CCAM mobility in Europe. It aims at identifying the economic sectors that are most likely to be affected by CCAM as well as the influencing factors driving future changes in each sector. The ultimate goal is to estimate ranges of potential effects for the main affected sectors, with the support of a set of scenarios. The study also aims at analysing the potential effects of CCAM on the workforce and pursues the identification of skills that need to be addressed in the mobility transition. The focus of the study is exclusively paid on road transport and covers both passenger and freight transport.JRC.C.4-Sustainable Transpor

Calibration of PMP Condensation Particle Number Counters - Effect of Material on Linearity and Counting Efficiency

Recently the particle number method was proposed to the light duty regulation, so the proper calibration of Particle Number Counters (PNCs) will be very important. Calibration includes the linearity measurement and the counting efficiency measurement. Labs will have to demonstrate compliance of their PNCs with a traceable standard within a 12 month period prior to the emissions test. Compliance can be demonstrated by: -Primary method: By comparison of the response of the PNC under calibration with that of a calibrated aerosol electrometer when simultaneously sampling electrostatically classified calibration particles, or -Secondary method: By comparison of the response of the PNC under calibration with that of a second PNC which has been directly calibrated by the above method. Compliance testing includes linearity and detection efficiency with particles of 23 nm electrical mobility diameter. A check of the counting efficiency with 41 nm particles is not required. A workshop was organised to investigate the effect of the material on the calibration procedures and the uncertainties of the suggested procedure. GRIMM and TSI provided PNCs and AEA, MATTER, GRIMM, TSI provided five particle generators. The experiments were conducted in the European¿s Commissions laboratories (JRC). Heavy duty diesel engine (w/o aftertreatment) particles were also produced (measurements downstream a thermodenuder) at idle and a medium load mode. The measured data were evaluated by JRC. The results showed that there was an effect of the material used and suggestions were given. In addition the uncertainties of the procedure were quantified. Theoretical calculations showed the corrections that should be applied.JRC.H.4-Transport and air qualit

Joint Research Centre 2018 light-duty vehicles emissions testing

This report presents the activities of the JRC on tailpipe emissions compliance assessment of light-duty vehicles conducted throughout 2018. Criteria pollutant and CO2 emissions of 19 vehicles were measured in the laboratory and on the road in a wide range of driving conditions. Distance-specific emissions for individual vehicles and per vehicle technologies and standards are presented. The methodology for emissions compliance defined in the Guidance on the evaluation of Auxiliary Emission Strategies and the presence of Defeat Devices with regard to the application of Regulation (EC) No 715/2007 on type-approval of motor vehicles with respect to emissions from light passenger and commercial vehicles (Euro 5 and Euro 6) was applied and discussed.JRC.C.4-Sustainable Transpor

Joint EUCAR/JRC/CONCAWE Study on: Effects of Gasoline Vapour Pressure and Ethanol Content on Evaporative Emissions from Modern Cars

A test programme designed to investigate the influence of gasoline vapour pressure and ethanol content on evaporative emissions from modern passenger cars has been carried out by the Joint Research Centre of the European Commission jointly with CONCAWE and EUCAR. Seven gasoline passenger cars representative of current EURO 3/4 emissions technology were tested for evaporative emissions with ten different test fuels. The test fuel matrix comprised 60 and 70 kPa hydrocarbon base fuels with 5 and 10% ethanol splash blends and 5 and 10% ethanol matched volatility blends. The evaporative emission tests were carried out according to a test protocol based on the European homologation test procedure, with no additional vehicle conditioning. Although this test protocol turned out to have a considerable influence on the results, the programme has provided valuable information and several clear conclusions can be drawn. The programme confirmed that vapour pressure (DVPE) is a key fuel variable for evaporative emissions. However the effect of vapour pressure is strongly non-linear; the ethanol blends with final DVPE around 75 kPa gave considerably higher evaporative emissions than the lower volatility fuels in most of the vehicles. Differences between fuels with DVPE in the range 60-70 kPa were small. Additional tests on two vehicles performed after the main programme have raised some questions about possible effects of ethanol on carbon canister working capacity and on the role of permeation in determining evaporative emissions.JRC.H.4-Transport and air qualit

ARTEFACTS: How do we want to deal with the future of our one and only planet?

The European Commission’s Science and Knowledge Service, the Joint Research Centre (JRC), decided to try working hand-in-hand with leading European science centres and museums. Behind this decision was the idea that the JRC could better support EU Institutions in engaging with the European public. The fact that European Union policies are firmly based on scientific evidence is a strong message which the JRC is uniquely able to illustrate. Such a collaboration would not only provide a platform to explain the benefits of EU policies to our daily lives but also provide an opportunity for European citizens to engage by taking a more active part in the EU policy making process for the future. A PILOT PROGRAMME To test the idea, the JRC launched an experimental programme to work with science museums: a perfect partner for three compelling reasons. Firstly, they attract a large and growing number of visitors. Leading science museums in Europe have typically 500 000 visitors per year. Furthermore, they are based in large European cities and attract local visitors as well as tourists from across Europe and beyond. The second reason for working with museums is that they have mastered the art of how to communicate key elements of sophisticated arguments across to the public and making complex topics of public interest readily accessible. That is a high-value added skill and a crucial part of the valorisation of public-funded research, never to be underestimated. Finally museums are, at present, undergoing something of a renaissance. Museums today are vibrant environments offering new techniques and technologies to both inform and entertain, and attract visitors of all demographics.JRC.H.2-Knowledge Management Methodologies, Communities and Disseminatio

Transport Experimental Data Collection

Data of vehicles and engines from tests in the VELA laboratory and on-road: - Emission data; - RDE data; - Energy efficiency, consumption and driving range of electric vehicles; - EMC data; - Autonomous vehicles and vehicle safety, post-processed data, conformity factors, drivers' mobility patterns for advanced driver assistance systems (e.g. ACC)JRC.C.4-Sustainable Transpor

Aerosol Deposit Characterization by Radiation Technology

The STORM project investigates the deposition and resuspension of representative (SnO2, CsOH) aerosols in selected components (e.g. pipes, bends, steam generator) under typical accident conditions of a reactor. To characterize the phenomena of deposition and resuspension the aerosol deposit has to be well observed without disturbing the process under investigation. To fulfill this objective the attenuation of gamma radiation (60 keV Americuium 241) by the formation of a deposit in a test pipe has been measured. The Americium source has been mounted in a frame which can be moved in the x and y direction (stepwidth 0.2mm) and roteted around the pipe (stepwidth 0.1 degree). The measurement object can be scanned over a certain range. The frame can house objects of up to 500 mm in diameter. Windows of 0.7 mm thickness have been made in the testpipe surface. A deposit resolution of 1mg/cm2 is achieved. The instrument, the calibration measurements with SnO2 and CsOH and its application during the STORM experiments are presented. The use of an energy selective detector to additionally characterize the deposit composition are discussed.JRC.(ISIS)-Institute For Systems, Informatics And Safet