The European environment – state and outlook 2010

Energy-related emissions of acidifying substances (ENER 006) - Assessment published Apr 2012: Energy-related emissions account for only 2% of NH 3 emissions but 96% of NO x and 94% of SO 2 emissions in the EEA-32 in 2009. They fell by 17%, 13% and 21% respectively between 2005 and 2009 in EEA-32 countries. Since 1990, these energy related emissions declined by 40% and 78% for NO x and SO 2 respectively but increased by 88% for NH 3 in the EU-27 and declined by 37% (NO x ) and 74% (SO 2 ) and increased by 92% (NH 3 ) in EEA-32 member countries. However as noted earlier the percentage of energy related NH 3 emissions are insignificant compare do the non-energy related NH 3 emissions. Most of the total reduction in pollutants contributing to acid deposition since 1990 is accounted for by lower SO 2 emissions from the energy-producing sector and lower NO x emissions from the transport sector. The EU-27 is broadly on track to meet its overall targets set under the NEC Directive (NECD) [1] , however further reductions are needed to improve remaining local and transboundary air pollution issues, and for ensuring that individual countries meet emissions ceiling targets under the NECD and the UNECE Gothenburg Protocol. [1] See Pollutant Specific Factsheet NOx
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Reconstructed record of the global average temperature and atmospheric CO2 concentration over the last 400.000 years: Geographical coverage note: World Temporal coverage: The last 400 000 years
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Estimated impact of different factors on the reduction of CO2, SO2 and NOX emissions from public heat and electricity generation in the EU-27, 1990-2005: Located in Data and maps › Maps and graphs
Total vehicle CO2 emissions across all modes and fuels (megatonnes): The Graph is made based on the data extracted from the The IEA/SMP Transportation Model No individual countries are presented
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CO2 emissions per dwelling, climate corrected (EU-27): CO2 emissions per dwelling: direct and indirect emissions
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Big potential of cutting greenhouse gases from waste: There is a big potential to cut greenhouse gases (GHGs) from municipal solid waste management, according to a new report from the European Environment Agency (EEA). The report, 'Waste opportunities – Past and future climate benefits from better municipal waste management in Europe', covers the EU-27 (excluding Cyprus), Norway and Switzerland. It estimates that these countries could make GHG savings of up to 78 million tonnes carbon dioxide equivalent (CO2-e) by 2020, or 1.53 % of Europe's emissions in 2008.
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Energy efficiency and energy consumption in the transport sector (ENER 023) - Assessment published Sep 2010: In the EU-27 countries, energy efficiency in the transport sector increased by 15% between 1990 and 2008- at an annual average rate of 0.9% - due to increased efficiency particularly for passenger cars and airplanes. Over the same period, per capita energy consumption in transport in EU-27 countries increased by 26% - at an annual average rate of 1.3% - slower than GDP (2.1% annually). In 2008, the average per capita energy consumption in transport in EU-27 was 0.75 toe. In other EEA countries, the increase of per capita energy consumption in transport was either below the EU-27 average (e.g. Switzerland with 7% and Norway with 11%) or significantly above (e.g. Turkey with 36% and Iceland with 42%). Growth in passengers and freight traffic, together with an observed modal shift from public transport to road transport, contributed to increase the energy consumption in transport, offsetting the energy efficiency gains.
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Energy efficiency and energy consumption in the transport sector (ENER 023) - Assessment published Sep 2011: In the EU-27 countries, energy efficiency in the transport sector increased by 15% between 1990 and 2008- at an annual average rate of 0.9% - due to increased efficiency particularly for passenger cars and airplanes. Over the same period, per capita energy consumption in transport in EU-27 countries increased by 26% - at an annual average rate of 1.3% - slower than GDP (2.1% annually). In 2008, the average per capita energy consumption in transport in EU-27 was 0.75 toe. In other EEA countries, the increase of per capita energy consumption in transport was either below the EU-27 average (e.g. Switzerland with 7% and Norway with 11%) or significantly above (e.g. Turkey with 36% and Iceland with 42%). Growth in passengers and freight traffic, together with an observed modal shift from public transport to road transport, contributed to increase the energy consumption in transport, offsetting the energy efficiency gains.
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Energy efficiency and energy consumption in the household sector (ENER 022) - Assessment published Aug 2011: Over the period 1990-2008, energy efficiency in the household sector increased by 19% in EU-27 countries, or 1.1%/year, driven by the diffusion of more efficient buildings, space heating technologies and electrical appliances. Over the same period, the final energy consumption of households increased by about 13%, at an annual average rate of 0.7%. Electricity consumption grew much faster at an annual growth rate of 1.9%. Per capita household energy consumption in EU-27 and EEA countries only slightly increased over the period (0.4%/year). Since the year 2005 however, energy consumption per capita in the household sector decreased in almost all countries. The energy consumption of households is influenced mainly by two opposite drivers. Efficiency improvements in space heating and large electrical appliances reduces the consumption while increasing size of dwellings and increased use of electrical appliances and central heating contribute to increase the consumption and offset part of the energy efficiency benefits. CO2 emissions per dwelling were 24% below their 1990 level in 2008, mainly because of CO2 savings resulting from switches to fuel with a lower CO2 content.
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Energy efficiency in transformation (ENER 011) - Assessment published Sep 2010: In 2007 only 70.4 % of the total primary energy consumption in the EU reached the end users. Transformation and distribution losses have increased slightly since1990, from 29.1 % in 1990 to 29.6 % in 2007. About 5 % represented the energy-sector's own consumption of energy. An increase of the conversion efficiency in power plants has been compensated by a sharp growth in electricity consumption.
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