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Turkey

Official Name:
Republic of Turkey
Region:

National Designated Entity

Type of organisation:
Research and academic institution
Name:
Ms. Tugba Dogan Guzel
Position:
Expert Researcher
Phone:
+90 262 677 29 75
Emails:
tugba.dogan@tubitak.gov.tr

Energy profile

Turkey (2012)

Type: 
Energy profile
Energy profile
Extent of network

About 99.9% of the Turkish population have access to electricity.The Turkish transmission network consists of 14,453 km of 400 kV lines, 86 km of 220 kV lines, 31,716 km of 154 kV lines, and 508 km of 66 kV lines. In addition, there are 200 km of 154 kV cables, and 22.8 km of 380 kV cables. 

Renewable energy potential

Turkey’s renewable energy sources are plentiful and extensive, and represent the second-largest domestic energy source after coal. Primary renewable energy resources in Turkey are: hydro, biomass, wind, biogas, geothermal and solar.Geothermal energyTurkey ranks 7th worldwide in geothermal resources which yield a potential of 2,000 MWe (electricity) and 31,500 MWt (thermal). However, the installed capacity is only 20 MWe and 1,077 MWt. A 52 MWe plant is currently under construction. The majority of geothermal resources in the country are found in Menderes Massif, in Western Anatolia.Wind energyTurkey has one of the highest potential for wind energy in Europe and there exists an economical potential of 10,000 MW. As of 2007, the installed capacity has increased to 200 MW, with a further 600 MW in construction. The Turkish Wind Energy Potential Atlas was developed in 2007. An estimated 5,000 MW of new wind capacity can be installed where the annual wind speed is higher than 8.5 m/s, with a further 48,000 MW where the annual wind speed is higher than 7.0 m/s.Solar energyTurkey lies in a sunny belt between 36º and 42ºN latitudes. The yearly average solar radiation is 3.6  kWh/m2/day, and the total yearly radiation period is approximately 2640 h, which is sufficient to provide adequate energy for solar thermal applications. Technical solar potential stands at 76 Mtoe. Photovoltaic applications in the country currently stand at around 1000 kW, and are mainly installed in areas where electricity transmission is not economically feasible.  In spite of this high potential, solar energy is not now widely used, except for flat-plate solar collectors. In 2007, solar water heating produced roughly 400 ktoe in the country.Hydro powerThere are 436 sites available for hydroelectric plant construction, distributed on 26 main river zones.  The total gross potential and total energy production of these sites are nearly 50 GW and 112 TWh/yr, respectively, and about 30% of the total gross potential may be economically exploitable. Installed capacity of hydroelectric plants in Turkey stood at 13,393 MW at the end of 2007. It is projected that hydroelectric power plant capacity will rise to 35,000 MW by the year 2020. Unused potential consists of many small hydro projects, which have traditionally been one of the most attractive options for private investors in Turkey.Biomass energyConsidering the natural resources and extent of agro-economic infrastructure, Turkey also has a significant potential in biomass. As of 2003, 15 million tons of forest residues and 5.4 million tons of plant and animal wastes are used for the production of energy. However, it is estimated that around 50-60 million tons of animal wastes and 50-100 million tons of agro-industry wastes can be used for production of energy. Among the renewable energy sources, biomass is important because its share of total energy consumption is still high in Turkey. Since 1980, the contribution of the biomass resources in the total energy consumption dropped from 20% to 5% in 2008. Biogas production potential has been estimated at some 2 Mtoe. Biodiesel production capacity is 1.5 Mt and bioethanol production capacity is about 3 Mt per year. High targets have been set for 2015 in terms of biofuel production; 1,250,000 tonnes of biodiesel, and 735,000 tonnes of bioethanol   

Energy framework

Whilst Turkey does not have a specific national energy strategy document, objectives including securing energy supply, diversification of the energy mix (including renewable energy development), and the opening of the electricity market to all consumers by 2015, are contained within the Institutional Strategic Plan 2010-2014 of the Ministry of Energy and Natural Resources.The Renewable Electricity Law was adopted in 2005, as the transposition of EU Directive 2001/77/EC. The law which enables government to purchase a maximum of 20% of electricity from renewable energy sources by was fully operational by 2007.Biodiesel and bioethanol are being developed under the Petrol Markets and Tobacco Markets Laws respectively.An Amending Law to the Renewable Energy Law was prepared in 2008, in order to provide further incentives to the renewable energy sector. According to the amending law, different minimum purchase prices varying between 5 Euro Cent/kWh to 18Euro Cent/kWh are stipulated for electricity produced from different types of renewable energy resources. The purchase obligations are provided to be extended to facilities established prior to 1 January 2016. The Energy Efficiency Law (EEL) of Turkey was developed as a result of Turkey's tasks of complying with the EU directives. The law, expected to achieve 25–30% savings in total energy consumption, came into force on May 2, 2007 through the law number 5627.  The law exploits the efficient use of energy and covers administrative structuring, energy auditing, financial instruments and incentives, awareness raising and the establishment of an Energy Service Company (ESCO) market for energy efficiency (EE) services.The Law No. 5686 on the Law on Geothermal resources and natural mineral waters (June 03, 2007) to set forth the rules and principles for exploring, producing and protecting geothermal and natural mineral water resources this law is enforced.The Law No. 5346 on the Use of Renewable Energy Resources for Electricity Production Purposes (May 18, 2005) was created to ensure the widespread use of renewable energy sources, increase resource diversification, reduce greenhouse gas emissions and protect the environment. Within the scope of this law were conditions for the creation of a feed-in tariff system, combined with guaranteed purchase agreements for electricity generated from renewable energy sources, in addition to a guarantee-of-origin certificate system. Differentiation of tariff structure for different renewable energy sources was introduced in 2008 with the Amending Law. The tariff is valid for the first ten years of plants set up before 31 December 2011. Further amendments to the Law were made in 2011, further diversifying feed-in tariff structure, whilst limiting total production capacity of licensed solar energy companies to 600 MW by December 2013. Additional incentives will be offered to companies that utilise local manufacturing in the production of renewable energy infrastructure. 

Source
Static Source:
  • Sustainable Energy Regulation Network (SERN) Policy Database

    Type: 
    Publication

    This database provides energy information for countries throughout the world, including Africa; the Baltic States, Central Europe, and Eastern Europe; Latin America and the Caribbean; the Middle East; Russia and FSU; South Asia; South East Asia; and the Pacific Region. For each country, the database provides information on energy sources, reliance, electrification expansion, capacity concerns, renewable energy, energy efficiency, ownership, competition, framework, national energy priorities, the role of government, and regulation.

  • Summary of Country Reports Submitted to the Energy Efficiency Working Party

    Type: 
    Publication
    Summary of Country Reports Submitted to the Energy Efficiency Working Party
    Publication date:

    This summary document provides an overview of energy efficiency policies and planning across all sectors in International Energy Agency (IEA) member countries. It contains an overview of changes in policy context by country, as well as updated data on energy consumption and intensity. The majority is devoted to summarizing significant policy developments in the following sectors: buildings; transport, lighting, and appliances; public sector; and industry and energy management.

  • Global Non-Ferrous Scrap Flows 2000-2011

    Type: 
    Publication
    Publication date:
    Objective:
    Sectors:

    The goal of this report is to provide an understanding of global non-ferrous metal scrap flows in the context of non-ferrous industry developments over the 2000 to 2011 period. The focus of this study is on copper and aluminium as the two largest non-ferrous metals in terms of both material tonnages and market value. The report consists of four chapters. The first chapter, presented here, provides a brief backdrop to the analysis on non-ferrous scrap flows. It outlines growth in metal demand and the underlying reasons for this growth.

  • CO2 Capture in the Cement Industry

    Type: 
    Publication
    Publication date:
    Objective:
    Sectors:

    Carbon capture and storage (CCS) is one opportunity for further major reductions in emissions, and the industry is currently considering the feasibility of applying this technique in order to plan for the future. In many ways the cement industry represents a good opportunity for CCS because cement plants are relatively large point sources of CO2. The CO2 concentration in cement plants' flue gas is relatively high, and over 60 per cent of total CO2 emissions from a modern cement plant are from mineral decomposition. This cannot be avoided by use of alternative energy sources.

  • Bangladesh Centre for Advanced studies

    Type: 
    Organisation
    Country of registration:
    Bangladesh
    Relation to CTCN:
    Network Member

    Bangladesh Centre for Advanced studies (BCAS) is an independent, non-government, non-profit, research and policy institute institution established in 1986 with the mission to provide guidance and practical solutions to promote sustainable development, eradicate poverty, improve access of the poor to resources and ensure social justice. It specializes in policy analysis, action research and project implementation for sustainable development at local, national, regional and global levels.  

  • Wuppertal Institute for Climate, Environment and Energy

    Type: 
    Organisation
    Country of registration:
    Germany
    Relation to CTCN:
    Network Member

    Wuppertal Institute for Climate, Environment and Energy  is a research and academic organization established in 1991 with the mission to undertake research and develops models, strategies and instruments for transitions to a sustainable development at local, national and international level. Sustainability research at the Wuppertal Institute focuses on the resources, climate and energy related challenges and their relation to economy and society. Special emphasis is put on analysing and stimulating innovations that decouple economic growth and wealth from natural resource use. 

  • Natural Resources and Environmental Research Center, University of Haifa

    Type: 
    Organisation
    Country of registration:
    Israel
    Relation to CTCN:
    Network Member

    Natural Resources and Environmental Research Center (NRERC), University of Haifa is a resaerch and academic institution established in 1985  with the mission to  carry out interdisciplinary research in the area of natural resource and environmental resource management, pioneering this academic research field in Israel. NRERC is chosen, by the Israeli Ministry of Environmental Protection, to lead "The Israeli Center for Climate Change" (ICCIC).