http://www.eea.europa.eu These are the search results for the query, showing results 1 to 15. http://www.eea.europa.eu/data-and-maps/indicators/renewable-gross-final-energy-consumption-1?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Final Renewable Energy Consumption is the amount of renewable energy consumed in the member states with actual and normalised hydro and wind power generation and the share in the total final energy consumption. The final renewable energy consumption is composed of renewable energy for heat, renewable energy for electricity and the use of biofuels in transport The indicator is developed for measuring the contribution to the 2020 objectives on renewable energy for the EU-27. The Directive 2009/28/EC establishes an overall EU binding target of a 20 % share of renewable energy sources in energy consumption, as well as binding national targets by 2020 in line with the overall target. The overall share of renewable energy in the final energy consumption [1] includes consumption of electricity and heat from renewable energy sources as well as biofuels consumption. [1] Final Renewable Energy Consumption is the amount of renewable energy consumed in the member states with actual and normalised 15-year hydro power generation and 4-year wind and the share in the total final energy consumption. Due to this constraints, normalized data are only available from 2004 to 2009. No publisher pastocin ENER28 ENER2009 2013-03-19T08:41:33+01:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/primary-energy-consumption-by-fuel-3?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Total energy consumption or gross inland energy consumption represents the quantity of energy necessary to satisfy the inland consumption of a country. It is calculated as the sum of the gross inland consumption of energy from solid fuels, oil, gas, nuclear and renewable sources, and a small component of ‘other’ sources (industrial waste and net imports of electricity). The relative contribution of a specific fuel is measured by the ratio between the energy consumption originating from that specific fuel and the total gross inland energy consumption calculated for a calendar year. No publisher pastocin CSI029 ENER26 ENER2009 2013-03-18T15:43:30+01:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/final-energy-consumption-intensity-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic   Final energy consumption covers energy supplied to the final consumer for all energy uses. It is calculated as the sum of final energy consumption of all sectors. These are disaggregated to cover industry, transport, households, and services and agriculture. Total final energy intensity is defined as total final energy consumption (consumption of transformed energy such as electricity, publicly supplied heat, refined oil products, coke, etc, and the direct use of primary fuels such as gas or renewables, e.g. solar heat or biomass) divided by gross domestic product (GDP) at constant 2000 prices. The GDP figures are taken at constant prices to avoid the impact of inflation, base year 2000. Household energy intensity is defined as household final energy consumption divided by population. Transport energy intensity is defined as transport final energy consumption divided by GDP at constant 2000 prices. Industry energy intensity is defined as industry final energy consumption divided by industry Gross Value Added at constant 2000 prices. This excludes final energy consumption and gross value added from construction.  Services energy intensity is defined as services final energy consumption divided by services Gross Value Added at constant 2000 prices. Value added of services is the sum of 3 value added : G_H_I : Wholesale and retail trade, repair of motor vehicles, motorcycles and personal and household goods; hotels and restaurants; transport, storage and communication, J_K - Financial intermediation; real estate, renting and business activities and L_TO_P - Public administration and defence, compulsory social security; education; health and social work; other community, social and personal service activities; private households with employed persons No publisher pastocin ENER21 ENER2009 2013-03-18T14:31:49+01:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/efficiency-of-conventional-thermal-electricity-generation-1?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Output from conventional thermal power stations consists of gross electricity generation and also of any heat sold to third parties (combined heat and power plants) by conventional thermal public utility power stations as well as autoproducer thermal power stations. The energy efficiency of conventional thermal electricity production (which includes both public plants and autoproducers) is defined as the ratio of electricity and heat production to the energy input as a fuel. Fuels include solid fuels (i.e. coal, lignite and equivalents, oil and other liquid hydrocarbons, gas, thermal renewables (industrial and municipal waste, wood waste, biogas and geothermal energy) and other non-renewable waste. No publisher fernari ENER19 ENER2009 2013-03-05T10:39:13+01:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/renewable-electricity-consumption-1?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic The share of renewable electricity is the ratio between the electricity produced from renewable energy sources and gross national electricity consumption, expressed as a percentage. It measures the contribution of electricity produced from renewable energy sources to the national gross electricity consumption. Renewable energy sources are defined as renewable non-fossil energy sources: wind, solar, geothermal, wave, tidal, hydropower, biomass, landfill gas, sewage treatment plant gas and biogases. Electricity produced from renewable energy sources comprises the electricity generation from hydro plants (excluding that produced as a result of pumping storage systems), wind, solar, geothermal and electricity from biomass/wastes. Electricity from biomass/wastes comprises electricity generated from wood/wood wastes and the burning other of solid wastes of a renewable nature (straw, black liquor), municipal solid waste incineration, biogas (incl. landfill, sewage, farm gas) and liquid biofuels. Gross national electricity consumption comprises total gross national electricity generation from all fuels (including autoproduction), plus electricity imports, minus exports. No publisher pastocin ENER30 ENER2009 2013-01-10T12:46:20+01:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/energy-efficiency-and-energy-consumption-6?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Specific consumption per tonne produced : Energy consumption divided by the physical production (for steel, cement , paper) Energy efficiency index of industry (ODEX) is a weighted average of the specific consumption index of 10 manufacturing branches; the weight being the share of each branch in the sum of the energy consumption of these branches in year t and the sum of the implied energy consumption from each underlying industrial branches in year t (based on the unit consumption of the sub-sector with a moving reference year). CO2 emissions from energy uses split between direct emissions and indirect emissions: Direct emissions refer to emissions from the combustion of coal, gas and oil products (source: EEA inventories 2009); Indirect emissions (or electricity related) refer to emissions in the power sector corresponding to the electricity consumption in the sector       Indirect CO2 = E ind/E tot * CO2 ie with E : electricity consumption (ind for industry, tot for all sectors) (source ODYSSEE database); CO2 ie : CO2 emissions from public electricity and heat production ( source EEA, inventories 2009) No publisher pastocin ENER ENER25 ENER2009 2012-04-30T14:10:35+02:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/energy-efficiency-and-energy-consumption-4?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Energy efficiency progress (Figure 1) is measured from the ODEX indicator. This index aggregates the unit consumption trends for each transport mode in a single indicator for the whole sector. It is calculated at the level of 8 modes or vehicle types: cars, trucks, light vehicles, motorcycles, buses, total air transport, rail, and water transport. For cars, energy efficiency is measured by the specific consumption, expressed in litre/100km; for the transport of goods (trucks and light vehicles), the unit consumption per ton-km is used, as the main activity is to move goods; for other modes of transport various indicators of unit consumption are used, taking for each mode the most relevant indicator given the statistics available: toe/passenger for air, goe/pass-km for passenger rail, goe/ton-km for transport of goods by rail and water, toe per vehicle for motorcycles and buses.  The variation of the weighted index of the unit consumption by mode between t-1 and t is defined as follows It /It -1= 1/( It -1/It) with : energy share EC i  (consumption of each mode i   in total transport consumption); unit consumption index UC i (ratio : consumption related to traffic or specific consumption in l/100 km for cars); t refers the current year, t-1 to the previous year. The value at year t can be derived from the value at the previous year by reversing the calculation: It /It -1= 1/( It -1/It) ODEX is set at 100 for a reference year and successive values are then derived for each year t by the value of ODEX at year t-1 multiplied by It /It -1. The energy consumption variation of passenger transport in Figure 4 is broken down into 3 explanatory effects: activity effect (increase in traffic), modal shift effect (from private transport to public transport modes) and energy savings (change in specific consumption per unit of traffic). A positive “modal shift effect” means that the share of public passenger transport in passenger traffic is decreasing (shift from public transport to cars)  or the road in total freight traffic is increasing (shift from rail-water to road): this offsets energy savings. CO2 emissions for total transport are split into 2 explanatory effects (Figure 6): an activity effect due to an increase in traffic of passengers and freight, CO2 savings due to the reduction in the specific emissions of vehicles per unit of traffic. No publisher pastocin ENER23 ENER2009 2012-04-30T14:07:56+02:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/energy-efficiency-and-energy-consumption-5?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Household energy consumption, covers all energy consumed in households for space heating, water heating, cooking and electricity.    Figures are reported either aggregated or disaggregated according to the end use categories named and as a total figure or per dwelling or m 2 of housing area. Climate fluctuates from one year to another. When the data is flagged as climate corrected, the data is normalized to reflect similar weather conditions. Consumption in useful energy per degree-day corrects for difference in heating equipment efficiency (which varies according to the fuel  uses) and climate. Energy efficiency indices (ODEX) can be defined as a ratio between the actual energy consumption of the sector in year t and the sum of the implied energy consumption from each underlying sub-sector/ end use in year t (based on the unit consumption of the sub-sector with a moving reference year. The evaluation of energy savings in household is carried out at the level of three end uses (heating, water heating and cooking) and five large appliances (refrigerators, freezers, washing machines, dishwashers and TVs). For each end use, the following indicators are used to measure efficiency progress: heating — unit consumption per m 2 per dwelling equivalent to central heating at normal climate; water heating — unit consumption per dwelling with water heating; and cooking — unit consumption per dwelling. The average energy consumption per m 2 per dwelling equivalent to central heating is used to leave out the impact of the diffusion of central heating. The effect of (heating) behaviour was estimated by assuming that technical progress cannot be reversed Household CO 2 -emissions covers the direct CO 2 emitted by fuel combustion. No publisher pastocin ENER22 ENER2009 2012-04-30T14:07:10+02:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/final-energy-consumption-by-sector-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Final energy consumption covers energy supplied to the final consumer for all energy uses. It is calculated as the sum of final energy consumption of all sectors. These are disaggregated to cover industry, transport, households, services and agriculture. The indicator can be presented in relative or absolute terms. The relative contribution of a specific sector is measured by the ratio between the final energy consumption of that sector and total final energy consumption calculated for a calendar year. It is a useful indicator which highlights a country's sectoral needs in terms of final energy demand. No publisher pastocin ENER016 ENER16 ENER2009 2012-04-30T13:00:37+01:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/specification.2010-08-10.4640130926-2?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Emissions of SO 2 and NOx (also NH 3 where applicable) in 1000 tonnes. No publisher pastocin ENER06 ENER2009 2012-04-30T13:54:03+02:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/specification.2010-08-10.4640130926-1?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Emissions of SO 2 and NOx (also NH 3 where applicable) in 1000 tonnes. No publisher pastocin ENER06 ENER2009 2011-08-10T14:31:16+02:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/energy-related-emissions-of-ozone-precursors-3?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic  TOFP is the Tropospheric Ozone Forming Potential of each of the air pollutants that contribute to ozone formation in the troposphere i.e. ‘ground-level’ ozone. No publisher pastocin air ENER05 ENER energy emission ozone precursors ENER2011 ENER005 ENER2009 ener02 2011-08-10T13:48:52+02:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/figures/benchmarking-in-the-cement-industry-1/ener025_2009_fig5.xls?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic No publisher pastocin ENER025 Energy ENER ENER25 ENER2009 2011-07-05T13:06:13+01:00 EEAFigureFile http://www.eea.europa.eu/data-and-maps/indicators/renewable-gross-final-energy-consumption?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Final Renewable Energy Consumption is the amount of renewable energy consumed in the member states with actual and normalised 15-year hydro power generation and 4-year wind and the share in the total final energy consumption. The final renewable energy consumption is composed of renewable energy for heat, renewable energy for electricity and the use of biofuels in transport. The electricity production of hydro power is calculated both as actual production and normalised production over a 15-year weighted average (4-year weighted average for wind). The indicator is developed for measuring the contribution to the 2020 objectives on renewable energy for the EU-27. The Directive 2009/28/EC establishes an overall EU binding target of a 20 % share of renewable energy sources in energy consumption, as well as binding national targets by 2020 in line with the overall target. The overall share of renewable energy in the final energy consumption [1] includes consumption of electricity and heat from renewable energy sources as well as biofuels consumption. [1] Final Renewable Energy Consumption is the amount of renewable energy consumed in the member states with actual and normalised 15-year hydro power generation and 4-year wind and the share in the total final energy consumption. Due to this constraints, normalized data are only available from 2004 to 2009. No publisher pastocin ENER28 ENER2009 2011-01-26T00:00:00+01:00 Indicator Specification http://www.eea.europa.eu/data-and-maps/indicators/specification.2010-08-10.4640130926?utm_source=EEASubscriptions&utm_medium=RSSFeeds&utm_campaign=Generic Emissions of combined SO2 and NOx (also NH3 where applicable) in 1000 tonnes acid equivalents. Gaps filled by EEA/ETC-ACC where necessary using simple interpolation techniques No publisher pastocin ENER06 ENER2009 2011-01-12T01:00:00+02:00 Indicator Specification