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Indicator Assessment
Assessment EE_F12 2007
The renewables share in power generation rises to 18% in 2010 - which falls however short of the indicative target of the renewables electricity directive (22%) - indicating that the measures implemented in the Member States by the end of 2004 are not yet sufficient. In any case, the baseline shows a dynamic development in renewables penetration in electricity, as the renewables share rises further to 23% in 2020 and 28% in 2030.
This development is clearly driven by the high growth rates of wind energy - especially in this decade; but growth rates are still impressing in coming decades. In total, wind energy in 2030 provides twenty times as much electricity as was available from this source in 2000. The increase of wind over 30 years in absolute terms (420 TWh) corresponds to the total present day electricity consumption in the UK. In 2030, wind power is expected to produce more electricity than hydro.
Biomass use for power generation also rises considerably; solar PV has high growth rates from a small basis, while the additional contribution from hydro power is small as a result of limited additional potential and environmental restrictions.
Assessment was based on the report "European Energy and Transport: Trends to 2030" (update 2005) (some trends is recalculated a bit)
Renewable electricity is the ratio between the electricity produced from renewable energy sources and the gross national electricity consumption calculated for a calendar year. It is usually expressed as a percentage of the former to the latter. It measures the contribution of electricity produced from renewable energy sources (wind, solar, geothermal, wave, tidal, hydropower, biomass, landfill gas, sewage treatment plant gas and biogases) to the national electricity consumption.
Model used:
PRIMES
Ownership:
European Environment Agency
Temporal coverage:
1990 - 2030
Geographical coverage:
EU-25: Austria, Belgium, Denmark, Finland, France, Germany, Greece, Ireland, Italy, Luxembourg, Netherlands, Portugal, Spain, Sweden, United Kingdom, Cyprus, Czech republic, Estonia, Hungary, Latvia, Lithuania, Malta, Poland, Slovakia, Slovenia
Electricity generation is measured in terawatt hours (TWh).
The indicator shows the trends in renewable electricity production. It can be useful to monitor performances of the wide range of policies at pan-european and national level that attempt to influence energy consumption and energy efficiency, electricity generation, and, therefore, extent of environmental impacts.
The major documents that relate to trends of the energy production and electricity generation at the global level were developed and presented during the World Summit on Sustainable Development in Johannesburg (WSSD,2002) in Agenda 21. WSSD, 2002 aims to achieve a sustainable energy future, including diversified energy sources using cleaner technologies. Moreover, there is a number of sub-negotiations and declarations concerning more sustainable ratio in balance between a global energy supply and production of different energy types, as well as more sustainable electricity generation.
The recent pan-european policies concerning different aspects of energy production and electricity generation have been developed under different international fora.
The Committee on Sustainable Energy seeks to reform energy prices and subsidies and ways how to carry out it to meet more sustainable energy production and consumption in the region (UNECE Guidelines).
Kiev Declaration "Environment for Europe" (2003) aims at supporting further efforts to promote energy efficiency and renewable energy production to meet environmental objectives.
On 23 January 2008 the European Commission adopted the 'Climate Action and Renewable Energy' package. The Package sets a number of targets for EU member states with the ambition to achieve the goal of limiting the rise in global average temperature to 2 degrees Celsius compared to pre-industrial times including: GHG reduction of 20% compared to 1990 by 2020. (under a satisfactory global climate agreement this could be scaled up to a 30% reduction); 20% reduction in energy consumption through improved energy efficiency, an increase in renewable energy's share to 20% and a 10% share for sustainably produced biofuels and other renewable fuels in transport. With these goals in mind, each Member State will by June 30th 2010 submit a National Renewable Energy Action Plan to the Commission.
Energy efficiency and energy trade, and, consequently, energy and electricity productions are highlighted in the EECCA Environment Strategy. Moreover, there are negotiations concerning decisions about improvements in hydropower sector in Central Asia (Cooperation Strategy in Asia, 2004).
The Renewable electricity generation indicator is implemented for a wide range of structural and quantitative targets in different regional levels.
Global level
Pan-European level
EU level
EECCA level
The indicator of the Final energy consumption is produced using the PRIMES model. The model covers the horizon from 1990 to 2030 with 5 years periods. A fundamental assumption in PRIMES is that producers and consumers both respond to changes in prices.
PRIMES is a partial equilibrium model for the European Union energy system developed by, and maintained at, The National Technical University of Athens, E3M-Laboratory. The most recent version of the model used in the calculations covers each of the EU Member States, EU candidate countries and Neighbouring countries, uses Eurostat as the main data source, and is updated with 2000 as the base year. The PRIMES model is the result of collaborative research under a series of projects supported by the Joule programme of the Directorate General for Research of the European Commission.
The model determines the equilibrium by finding the prices of each energy form such that the quantity producers find best to supply match the quantity consumers wish to use. The equilibrium is static (within each time period) but repeated in a time-forward path, under dynamic relationships. The model is behavioural but also represents in an explicit and detailed way the available energy demand and supply technologies and pollution abatement technologies. It reflects considerations about market economics, industry structure, energy/environmental policies and regulation. These are conceived so as to influence the market behaviour of energy system agents. The modular structure of PRIMES reflects a distribution of decision-making among agents that decide individually about their supply, demand, combined supply and demand, and prices. Then the market-integrating part of PRIMES simulates market clearing. PRIMES is a general purpose model. It conceived for forecasting, scenario construction and policy impact analysis. It covers a medium to long-term horizon. It is modular and allows either for a unified model use or for partial use of modules to support specific energy studies.
For more information see:http://www/e3mlab.ntua.gr/manuals/PRIMESld.pdf; http://www/e3mlab.ntua.gr/ and http://www.e3mlab.ntua.gr/DEFAULT.HTM
No methodology for gap filling has been specified. Probably this info has been added together with indicator calculation.
No uncertainty has been specified
No uncertainty has been specified
No uncertainty has been specified
For references, please go to https://www.eea.europa.eu/data-and-maps/indicators/renewable-electricity-outlook-from-eea/renewable-electricity-outlook-from-eea or scan the QR code.
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