-
CO2 emission savings per year for EU-27 at different transformation efficiencies compared to current 2008 efficiency
-
CO2 emission savings per year for EU-27 at different transformation efficiencies compared to current 2008 efficiency
Located in
Data and maps
›
Maps and graphs
-
CO2 emission savings per year for EU–27 at different transformation efficiencies compared to current 2009 efficiency
-
CO2 emission savings per year for EU-27 at different transformation efficiencies compared to current 2009 efficiency
Located in
Data and maps
›
Maps and graphs
-
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.
Located in
Data and maps
›
Indicators
›
Energy efficiency in transformation
-
Energy efficiency in transformation (ENER 011) - Assessment published Apr 2012
-
In 2009 only 71.6% of the total primary energy consumption in the EU-27 reached the end users. Transformation and distribution (T&D) losses decreased slightly since 1990, from 29.1% in 1990 to 28.4% in 2009. T&D losses were 28.6% in 2008. About 5% represented the energy-sector’s own consumption of energy.
Located in
Data and maps
›
Indicators
›
Energy efficiency in transformation
-
Energy efficiency in transformation (ENER 011) - Assessment published Aug 2011
-
In 2008 only 71.4% of the total primary energy consumption in the EU-27 reached the end users. Transformation and distribution losses which had increased slightly since 1990, from 29.1% in 1990 to 29.6% in 2007 have decreased to 28.6% in 2008 (about 5% of it 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.
Located in
Data and maps
›
Indicators
›
Energy efficiency in transformation
-
Energy losses and energy availability for end users in 2008 (% of primary energy consumption)
-
How to read the figure: % Share of 101300 (consumption – energy sector), 101400 (distribution losses), 101500 (energy available for final consumption), Transformation losses (101000 Transformation input minus 101100 Transformation output) within the sum of the above four elements for each Member State
Located in
Data and maps
›
Maps and graphs
-
Energy losses and energy availability for end users in 2009 (% of primary energy consumption)
-
How to read the figure: % Share of 101300 (consumption – energy sector), 101400 (distribution losses), 101500 (energy available for final consumption), Transformation losses (101000 Transformation input minus 101100 Transformation output) within the sum of the above four elements for each Member State
Located in
Data and maps
›
Maps and graphs
-
Structure of CO2 emissions from thermal power plants in EU-27, 2008
-
How to read the figures:
Left-top: % Share of fuel input (TJ) by type (liquid, solid, gaseous, biomass and other fuels) into 1A1a public electricity and heat production.
Left-bottom: Implied emission factor for each fuel above (tCO2 / TJ), taken from EEA (2008)
Right-top: Average efficiency of transformation in EU-27.
Numerator = 101109 Output from district heating plants + 101121 Output from public thermal power stations
Denominator = 101009 Input to district heating plants + 101021 Input to public thermal power stations
Right-bottom: % Share of CO2 emissions by fuel type (liquid, solid, gaseous, biomass and other fuels into 1A1a public electricity and heat production)
Located in
Data and maps
›
Maps and graphs
-
Structure of CO2 emissions from thermal power plants in EU-27, 2009
-
How to read the figures:
Left-top: % Share of fuel input (TJ) by type (liquid, solid, gaseous, biomass and other fuels) into 1A1a public electricity and heat production.
Left-bottom: Implied emission factor for each fuel above (tCO2 / TJ), taken from EEA (2009)
Right-top: Average efficiency of transformation in EU-27.
Numerator = 101109 Output from district heating plants + 101121 Output from public thermal power stations
Denominator = 101009 Input to district heating plants + 101021 Input to public thermal power stations
Right-bottom: % Share of CO2 emissions by fuel type (liquid, solid, gaseous, biomass and other fuels into 1A1a public electricity and heat production)
Located in
Data and maps
›
Maps and graphs
-
Structure of the efficiency of transformation and distribution of energy from primary energy consumption to final energy consumption, EU-27, 2008
-
How to read the figures: % share of Gross Inland Energy Consumption (100900) for 2000 Solid Fuels, 3000 Crude oil and Petroleum Products, 4000 Gas, 5100 Nuclear Energy, 6000 Imports/exports electricity, 5500 Renewable Energies, 7100 Industrial Wastes. All in ktoe.
% share of Gross Inland Energy consumption (100900) for Transformation losses (101000 Transformation input minus 101100 Transformation output), 101400 Distribution losses, 101300 consumption – energy sector, 101600 final non-energy consumption, 101800 final energy consumption – industry, 101900 final energy consumption – transport, 102010 final energy consumption – households, 102030 final energy consumption – agriculture (plus 102035 final energy consumption fisheries), 102035 final energy consumption – services, 102040 final energy consumption – other sectors.
Located in
Data and maps
›
Maps and graphs
Twitter
Facebook
YouTube channel
RSS Feeds
Write to us
Call us
Upcoming environmental events around the world
