Abstract
The road passenger transport is responsible for a large share of energy consumption and pollutants emission in Europe. Efforts have been made in the definition of new policies to reduce the environmental impacts of this sector. However, an integrated and consistent assessment of the most promising policies is required, using specific European indicators. For that matter, a life-cycle analysis was applied to the road passenger transport, for the European Union with 27 countries (EU27) in 2010, following a basket-of-products methodology and considering three main stages: production, use, and end-of-life of vehicles. Simapro 8 software was used, along with Ecoinvent 3 database and the impact assessment method International Reference Life Cycle Data System (ILCD) 2011 Midpoint+. Changes in vehicle production processes, vehicle constitution, and energy sources for vehicle propulsion were analyzed. The policies resulting in a decrease in all impact categories are the use of smaller or lightweight vehicles by positively influencing use, production, and end-of-life of vehicles. The use of more recent vehicles technology or diesel vehicles show substantial reductions in, respectively, five and eight impact categories (out of 15), justifying their adoption in the European fleet. Generally, the most notorious policies compared to the actual transport paradigm, like compressed natural gas (CNG), biofuels, or electric vehicles use, show the greatest reduction in climate change (up to 46%) but also a very significant rise of impacts in the categories that in the conventional basket-of-products already resulted in the worst indicators after normalization.
Highlights
The transport sector is one of the main sectors of activity in Europe (EU28), having been responsible, in 2013, for 22% of the total emissions of greenhouse gases (GHGs) and for 32% of the final energy consumption [1]
In order to comprehend the impact of the tested policies, the percentFigure change3 compared to the Business-As-Usual (BAU) scenario in each impact category was assessed
The results show that the use of renewable energy sources in vehicle production leads to very small reductionshow in thatimpact, the usewith of renewable energy sources in vehicle production leads to very small reduction in impact, a 3% in water resource depletion being the highest reduction
Summary
The transport sector is one of the main sectors of activity in Europe (EU28), having been responsible, in 2013, for 22% of the total emissions of greenhouse gases (GHGs) and for 32% of the final energy consumption [1]. The contribution of the transport sector to climate change caused by GHGs cannot be disregarded. According to the European Environment Agency (EEA), the contribution of the road transport for local pollutants emissions stood, in 2013, at 39%. Of nitrogen oxides (NOx ), 22% of carbon monoxide (CO), and 12% of non-methane volatile organic compounds (NMVOCs) of the total emissions in the EU28 [3]. To overturn these trends, diverse alternative pathways are envisaged for the transport sector [4,5]. One example has been the increasingly restrictive limits for the exhaust emissions of NOx , particulate matter (PM), CO, and Environments 2018, 5, 21; doi:10.3390/environments5020021 www.mdpi.com/journal/environments
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