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Indicator Assessment
Total growth
In 2014, energy consumption in transport in the EU-28 was 23 % (Figure 1) and in the EEA-33 it was 27 % (Figure 2) higher than in 1990. In the EU-13, most of this growth occurred in road and maritime transport. In the EU-15, however, the growth occurred mainly in air transport, although the largest absolute increase in energy consumption occurred in road transport.
Split of energy consumption between old and new EU Member States
In 2014, transport in the the EEA-33 countries consumed approximately 17 652 petajoules (PJ, 1015 joules) of energy. The original EU-15 Member States consumed the vast majority of the energy (82 %), with just 11 % consumed by the EU-13 Member States. The final 7 % was used in the remaining EEA member countries.
Since 1990, energy consumption in transport has increased by 69 % in the EU-13 (see Figure 2). In 2014, just three Member States consumed less energy in the transport sector compared to 1990: Estonia, Latvia and Lithuania. Four Member States more than doubled their energy consumption over the same period: the Czech Republic, Ireland, Luxembourg and Poland.
Before 2007, energy consumption in transport in the EU-15 had shown steady growth since 1990. However, following peak consumption in 2007, all except Belgium, Bulgaria, Germany, Malta, Poland, Romania, and Slovenia experienced a reduction in energy consumption in transport, which continued in 2014. However, total energy consumption in the EU-15 was still 19 % higher in 2014 than it was in 1990.
In the EU-15, total transport energy consumption increased by 2 % between 2013 and 2014. Inland water transport decreased the most, by approximately 7 %, while rail and maritime transport decreased by 3 % each, and road and air transport increased by 2 and 1 %, respectively. In the EU-13, energy consumption decreased by 8 and 5 % respectively in rail and maritime transport between 2013 and 2014, and increased in air by 5 %, and in road and inland water transport by 3 % each.
Sectoral trends
In the EEA-33, aviation has shown the greatest growth in energy consumption of all modes, increasing by 77 % between 1990 and 2014, as shown in Figure 3. In 2014, it was the mode with the second highest energy consumption after road transport. This growth has mostly come from the EU-15, where air transport fuel consumption increased by 71 % over the period. The strongest period of growth for aviation in the EEA-33 was between 1990 and 2007, when it grew by 84 %. However, between 2007 and 2014, energy consumption in aviation in the EEA-33 fell by 4 %. Air transport is predicted to be the mode which sees highest growth, and to become the second most important passenger mode after road transport by 2050, due, for example, to the increasing number of international trips to emerging economies in Asia. Nonetheless, energy consumption is predicted to grow less than aviation activity as more energy efficient aircraft are introduced and the fleet is renewed. The International Air Transport Association (IATA) has set ambitious targets for reductions in fuel consumption and emissions by improving fuel efficiency by 1.5 % per year until 2020 and capping aviation emissions from 2020 (EC, 2013).
Since 1990, decreasing share of road gasoline consumption was exchanged with increased use of road diesel - a share of road gasoline in total transport energy consumption decreased significantly from 43 % to 20 % in 2014, whereas a share of road diesel increased from 31 % to 49 % in EU-28 (see Figure 4). Also due to growth in energy consumption in aviation, a share of aviation kerosene in total transport energy increased from 9 % in 1990 to 12.7% in 2014 in EU-28.
In the EU-13, energy consumption in road transport grew by 86 % between 1990 and 2014. In the EU-15, it grew by 15 % over the same time period. This corresponds with an approximately 20 % increase in passenger car demand over the last two decades (see TERM012) and an increase of over 70 % in land freight transport in the EU-13 over the last decade (see TERM013).
Energy consumption in maritime transport increased by 56 % across the EEA-33 between 1990 and 2007, before decreasing by 23 % between 2007 and 2014. The countries with the highest maritime transport energy use are Belgium, the Netherlands and Spain.
The low share of energy consumption in rail transport is partly due to a relatively small modal share, but also because, in most situations, rail transport is less energy-intensive than other modes. In 2013, 53 % of the rail network in the EEA-33 was electrified (see TERM018). Rail and domestic waterways were the only modes that recorded an absolute decrease in energy consumption between 1990 and 2014 in the EEA-33.
EEA-33 energy consumption in domestic waterways has remained fairly constant throughout the 1990s and early 2000s. The sector experienced an increase in activity between 2002 and 2006, most notably in the EU-15, with energy consumption in 2006 up 19 % on 1990 levels in the EEA-33. It has since declined and in 2014, consumption was 28 % lower than in 1990 for the EU-15, and 26 % lower for the EEA-33.
Policy
Policies that (1) reduce the demand for transport encourage a shift towards more environmentally-friendly modes, (2) improve transport management and (3) enhance vehicle energy efficiency are required to meet greenhouse gas reduction targets set by the Kyoto protocol and the EU 2030 climate and energy package. They are also required to meet the 70 % reduction in oil consumption from 2008 until 2050, which is included in the Transport White Paper. The EU 2030 policy framework for climate and energy, agreed in 2014 (EC, 2014b), includes:
Policies that only focus on the incremental efficiency of vehicles will not be sufficient to deliver a long-term, low-carbon transport sector. Further development must also optimise the performance of multi-modal logistics chains, and use transport and infrastructure more efficiently through improved traffic management and information systems, advanced logistic and market measures such as the completion of an integrated European railway market, and the removal of barriers to short sea-shipping, etc. (EC, 2011a).
This indicator considers total energy consumption in transport in PJ from 1990 onwards. The transport modes included are bunkers (sea transport), air transport (domestic and international), inland navigation, rail transport and road transport.
In this indicator, transport energy consumption is measured in terajoules (1 TJ = 1012 joules).
Reductions in fuel consumption in the transport sector, and/or reductions of related impacts, may be achieved via three primary means:
Although climate policy and the Kyoto Protocol are important drivers of reducing fossil fuel consumption (and air quality policy to a lesser extent), this indicator is primarily concerned with energy policy. Other related issues are addressed in TERM002 (Greenhouse gas emissions from transport in Europe), TERM003 (Emissions of air pollutants from transport) and TERM031 (Use of renewable fuels in transport in Europe).
The EU has set itself the following targets:
If the 2030 policy framework, proposed in January 2014, is accepted, these targets will be built upon. Additional targets — which aim to reduce greenhouse gas emissions by 40 % by 2030 and increase the proportion of energy that is renewable by at least 27 %, also by 2030 — will be set. Improvements in energy efficiency are still encouraged (as part of the '20-20-20' target to increase energy efficiency by 20 % by 2020), but no new target has been proposed (EC, 2014).
Two key documents published by the European Commission in 2011 outline possible strategies for the transport sector, which are compatible with the 2050 target. These are the Roadmap for moving to a competitive low-carbon economy in 2050 (EC, 2011) and the third decennial Transport White Paper, Roadmap to a single European transport area — Towards a competitive and resource efficient transport system (EC, 2011).
The impact assessment that accompanied the 2011 Transport White Paper (EC, 2011) suggests that a 70 % reduction in oil consumption in transport from 2008 levels should be achieved by 2050.
Energy statistics for transport are collected from Member States and collated by Eurostat. To assess whether total energy consumption in transport is growing, time series data for energy consumed were obtained from Eurostat. Data for various fuels were downloaded for bunker (sea), air (domestic and international), inland navigation, road and rail transport. Data for bunkers cover the quantities of fuel delivered to sea-going vessels of all countries. Data for inland and coastal waters are not included in bunker (sea) data. Data for air transport cover quantities of fuel consumed in national and international air traffic. Data on the energy consumed by electric and diesel trains are included within rail data.
Since Eurostat data are used to process statistics, the Eurostat methodology should be referred to for data collection and specification (see Eurostat, ITF and UNECE, 2009).
No methodology for gap filling is applied for this indicator.
No methodology references available.
Data trends within individual countries are difficult to ascertain, as energy consumption data often show unexpected variability from year to year. Energy consumption is calculated based on fuel sales and a common questionnaire is used to report it.
National data vary significantly from country to country and depending on the fuel type and production/consumption sector. The most reliable data come from the EU-15 countries. However, oil pipeline data are lacking for the majority of countries, making them less reliable. Occasionally, data used in older time series may change because of revisions in the methodology used. Such changes have resulted in small alterations, of a few per cent.
For the EU-13, data are generally much less reliable. Gaps are frequent, as are conspicuous jumps in consumption (e.g. doubling or more).
No uncertainty has been specified.
For references, please go to https://www.eea.europa.eu/data-and-maps/indicators/transport-final-energy-consumption-by-mode/assessment-6 or scan the QR code.
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