Difference between revisions of "Egypt Energy Situation"

From energypedia
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=== Primary Energy Supply<br/> ===
 
=== Primary Energy Supply<br/> ===
<span lang="en" style="line-height: 115%; font-family: &quot;calibri","sans-serif"; font-size: 11pt; mso-ascii-theme-font: minor-latin; mso-fareast-font-family: calibri; mso-fareast-theme-font: minor-latin; mso-hansi-theme-font: minor-latin; mso-bidi-font-family: "times new roman"; mso-bidi-theme-font: minor-bidi; mso-ansi-language: en; mso-fareast-language: en-us; mso-bidi-language: ar-sa;">Egypt is a resource rich country. According to the [http://www.eia.gov/countries/country-data.cfm?fips=EG US Energy Information Administration] (<span data-scayt_word="eia" data-scaytid="1">EIA</span>), it is the largest non-OPEC oil producer in Africa and the second largest dry natural gas producer on the continent. However, primary energy production in Egypt has been steadily declining since 2009 and [http://www.iea.org/statistics/statisticssearch/report/?year=2011&country=EGYPT&product=Balances in 2012 reached 82,046 ktoe]. This is due to shortages in natural gas supply and oil production being able to keep up with the energy demand. The shortages have led to frequent electricity blackouts in the country as well as decreasing exports. In attempt to increase power generation, the Egyptian government has approved the industrial use of coal in April 2014.</span><br/>
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<span lang="en">Egypt is a resource rich country. According to the US Energy Information Administration (<span data-scayt_word="eia" data-scaytid="1">EIA</span>)<ref>http://www.eia.gov/countries/country-data.cfm?fips=EG</ref>, it is the largest non-OPEC oil producer in Africa and the second largest dry natural gas producer on the continent. However, primary energy production in Egypt has been steadily declining since 2009 and in 2012 reached 82,046 ktoe<ref>http://www.iea.org/statistics/statisticssearch/report/?year=2011&country=EGYPT&product=Balances</ref>. This is due to shortages in natural gas supply and oil production being able to keep up with the energy demand. The shortages have led to frequent electricity blackouts in the country as well as decreasing exports. In attempt to increase power generation, the Egyptian government has approved the industrial use of coal in April 2014.</span><br/>
 
=== Consumption<br/> ===
 
=== Consumption<br/> ===
  
 
{| style="width: 764px;" border="1" cellspacing="3" cellpadding="1"
 
{| style="width: 764px;" border="1" cellspacing="3" cellpadding="1"
|+ Final energy consumption in Egypt in 2012 added up to 55,879 <span data-scayt_word="ktoe" data-scaytid="194">ktoe</span>. The share of the individual sectors is shown in table 1. <br/>
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|+ Final energy consumption in Egypt in 2012 added up to 55,879 <span data-scayt_word="ktoe" data-scaytid="194">ktoe</span>. The share of the individual sectors is shown in table 1.<br/>
<u>Table 1: [http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=EGYPT&product=Balances Final energy consumption in Egypt in 2012 (ktoe)]<br/></u>
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<br/><u>Table 1: Final energy consumption in Egypt in 2012 (ktoe)</u> <u><ref>http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=EGYPT&product=Balances</ref></u><br/>
  
 
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<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== Installed Generation Capacity ==
 
== Installed Generation Capacity ==
Between 2003 and 2008, the total installed capacity increased about 24 %, mainly through the added combined cycle and wind power installed capacity. In June 2008, the total installed capacity reached 22 583 MW, equivalent to a 2.9 % increase compared to the previous year. Of this, conventional steam power stations accounted for 11 571 MW (51.9 %), combined cycle power plants for 6 449 MW (28.9 %), and hydropower stations for 2 842 MW (12.8 %). Wind power plants provide the remaining 305 MW (1.3 %). Since 2002 / 2003, three private-sector electricity utilities have been contributing 2 048 MW of generating capacity (9 % of overall countrywide capacity in 2008) from three gas-fired steam power plants. According to the Ministry of Energy and Electricity’s five year plan from 2005, the installed capacity is to increase to a total of 32 <span data-scayt_word="gw" data-scaytid="6">GW</span> by 2010.
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Between 2003 and 2008, the total installed capacity increased about 24 %, mainly through the added combined cycle and wind power installed capacity. In June 2008, the total installed capacity reached 22 583 MW, equivalent to a 2.9 % increase compared to the previous year. Of this, conventional steam power stations accounted for 11 571 MW (51.9 %), combined cycle power plants for 6 449 MW (28.9 %), and hydropower stations for 2 842 MW (12.8 %). Wind power plants provide the remaining 305 MW (1.3 %). Since 2002 / 2003, three private-sector electricity utilities have been contributing 2 048 MW of generating capacity (9 % of overall countrywide capacity in 2008) from three gas-fired steam power plants. According to the Ministry of Energy and Electricity’s five year plan from 2005, the installed capacity is to increase to a total of 32 <span data-scayt_word="gw" data-scaytid="6">GW</span> by 2010. Egypt has 35 <span data-scayt_word="decentralised" data-scaytid="7">decentralised</span> power plants (mostly diesel units) that are not connected to the national grid. The combined installed capacities of these plants added up to 258 84 MW in 2007/2008. Approximately, 350 <span data-scayt_word="gwh" data-scaytid="8">GWh</span> of electricity were supplied to local users including tourist resorts.<br/><br/><br/>
Egypt has 35 <span data-scayt_word="decentralised" data-scaytid="7">decentralised</span> power plants (mostly diesel units) that are not connected to the national grid. The combined installed capacities of these plants added up to 258 84 MW in 2007/2008. Approximately, 350 <span data-scayt_word="gwh" data-scaytid="8">GWh</span> of electricity were supplied to local users including tourist resorts.<br/>
 
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{| style="width: 678px;" border="1" cellspacing="1" cellpadding="1"
 
{| style="width: 678px;" border="1" cellspacing="1" cellpadding="1"
 
|+ '''HISTORIC DEVELOPMENTS INSTALLED CAPACITY BY ENERGY SOURCE 2003-2008'''<ref name="EEHC 2008">EEHC 2008</ref><br/>
 
|+ '''HISTORIC DEVELOPMENTS INSTALLED CAPACITY BY ENERGY SOURCE 2003-2008'''<ref name="EEHC 2008">EEHC 2008</ref><br/>
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| style="width: 135px;" | 22583
 
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<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
 
= Renewable Energy =
 
= Renewable Energy =
<span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">Shares of renewable energies have not increased to a significant extent and continue to play a minor role in the energy supply structure. </span><span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">In 2006, renewable energy sources reached a share of 12.5 % of total grid-connected electricity production. While 12 925 <span data-scayt_word="gwh" data-scaytid="11">GWh</span> (12 %) were produced by hydropower installations, wind power contributed another 616 <span data-scayt_word="gwh" data-scaytid="12">GWh</span> (0.5 %).</span>
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<span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">Shares of renewable energies have not increased to a significant extent and continue to play a minor role in the energy supply structure. </span><span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">In 2006, renewable energy sources reached a share of 12.5 % of total grid-connected electricity production. While 12 925 <span data-scayt_word="gwh" data-scaytid="11">GWh</span> (12 %) were produced by hydropower installations, wind power contributed another 616 <span data-scayt_word="gwh" data-scaytid="12">GWh</span> (0.5 %).</span><br/>
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== Wind Energy<br/> ==
 
== Wind Energy<br/> ==
The current installed wind capacity accounts for 550 MW (2010/2011). Egypt is endowed with abundant wind energy resources, especially in the Suez Gulf zone. After the implementation of several experimental wind farm projects, the Ministry of Electricity and Energy set up an ambitious plan for wind farm development aiming at a total installed capacity of 965 MW in 2011/2012.<ref>EEHC 2008. Egyptian Electricity Holding Company (EEHC): Annual Report 2007/2008, Cairo 2008</ref> Egypt has outstanding wind energy conditions. Particularly in the coastal regions, high and stable wind speeds are frequent (up to an average of 10.5 m/s in the Gulf of Suez). Furthermore, the country’s large deserts and abundant thinly populated areas are well suited for the construction of large wind farms.<br/>
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The current installed wind capacity accounts for 550 MW (2010/2011). Egypt is endowed with abundant wind energy resources, especially in the Suez Gulf zone. After the implementation of several experimental wind farm projects, the Ministry of Electricity and Energy set up an ambitious plan for wind farm development aiming at a total installed capacity of 965 MW in 2011/2012.<ref>EEHC 2008. Egyptian Electricity Holding Company (EEHC): Annual Report 2007/2008, Cairo 2008</ref> Egypt has outstanding wind energy conditions. Particularly in the coastal regions, high and stable wind speeds are frequent (up to an average of 10.5 m/s in the Gulf of Suez). Furthermore, the country’s large deserts and abundant thinly populated areas are well suited for the construction of large wind farms.<br/>A detailed wind atlas has been compiled between 1998 and 2005 in a joint effort by <span data-scayt_word="nrea" data-scaytid="15">NREA</span>, the Egyptian Meteorological Authority (<span data-scayt_word="ema" data-scaytid="16">EMA</span>) and the Danish <span data-scayt_word="unep" data-scaytid="17">UNEP</span> research <span data-scayt_word="centre" data-scaytid="18">centre</span> <span data-scayt_word="risø" data-scaytid="19">Risø</span>. The purpose of the project was to establish a solid meteorological basis for evaluating the country’s wind resources. In addition to data records, the atlas also surveys the Egyptian wind conditions on the basis of wind models and offers detailed, meteorologically based information on site requirements for <span data-scayt_word="mediumsized" data-scaytid="20">mediumsized</span> and large wind farms. The Wind Atlas covers the entire country. However, particular attention was given to six promising areas: the Northwest Coast, the Northeast Coast, the Gulf of <span data-scayt_word="aqaba" data-scaytid="21">Aqaba</span>, the Gulf of Suez, the Red Sea and the Western Desert. It is considered a reliable source of information and is used as the basis for all governmental decisions related to wind energy project planning and feasibility studies. A map of average wind speeds can be found in a study by Mortensen et al.<ref name="Mortensen et al. 2006: Wind Atlas for Egypt: Measurements , micro- and mesoscale modelling. Proceedings of the Third Middle East – North Africa Renewable Energy Conference (MENAREC 3), Cairo, Egypt, June 12-14. 12 pp. fckLR(http://www.windatlas.dk/Egypt/About.html)">Mortensen et al. 2006: Wind Atlas for Egypt: Measurements , micro- and mesoscale modelling. Proceedings of the Third Middle East – North Africa Renewable Energy Conference (MENAREC 3), Cairo, Egypt, June 12-14. 12 pp. fckLR(http://www.windatlas.dk/Egypt/About.html)</ref><br/>For further information a wind atlas has been published by members of the Wind Energy Division at <span data-scayt_word="risø" data-scaytid="22">Risø</span> <span data-scayt_word="dtu" data-scaytid="24">DTU</span> in <span data-scayt_word="roskilde" data-scaytid="25">Roskilde</span><ref name="www.windatlas.dk/Egypt/Index.htm">www.windatlas.dk/Egypt/Index.htm</ref>.<br/>A special wind <span data-scayt_word="atlas36" data-scaytid="26">atlas36</span> for the Gulf of Suez was completed in 2003.<ref name="Mortensen et al. 2003: Wind Atlas for the Gulf of Suez. Measurements and Modelling 1991-2001, New and Renewable Energy Authority, Cairo, and Risø National Laboratory, Roskilde 2003">Mortensen et al. 2003: Wind Atlas for the Gulf of Suez. Measurements and Modelling 1991-2001, New and Renewable Energy Authority, Cairo, and Risø National Laboratory, Roskilde 2003</ref> The assessment determined an overall potential capacity of 20 000 MW for wind power projects in the uninhabited desert regions to the west of the Gulf. A further brief study evaluated the meteorological data gathered from ten weather stations situated along the Mediterranean coast.<ref name="Shata, A.S. Ahmed: Evaluation of wind energy potential and power production on the coast of Mediterranean Sea in Egypt, Faculty of Electrical Engineering and Computer Science, Institute of Energy and Automation Technology, Technical University Berlin, 2006.">Shata, A.S. Ahmed: Evaluation of wind energy potential and power production on the coast of Mediterranean Sea in Egypt, Faculty of Electrical Engineering and Computer Science, Institute of Energy and Automation Technology, Technical University Berlin, 2006.</ref> Three locations – <span data-scayt_word="sidi" data-scaytid="27">Sidi</span> <span data-scayt_word="barrani" data-scaytid="28">Barrani</span>, <span data-scayt_word="mersa" data-scaytid="29">Mersa</span> <span data-scayt_word="matruh" data-scaytid="30">Matruh</span> and El <span data-scayt_word="dabaa" data-scaytid="31">Dabaa</span> – were founded to also exhibit suitable characteristics for the installation of wind turbines. The atlas further indicates that large regions of the eastern and western deserts of the Nile River and parts of Sinai are much higher then hitherto assumed.<br/>Egypt Wind Atlas was issued in December 2005 in co-operation with <span data-scayt_word="riso" data-scaytid="33">RISO</span> laboratories of Denmark, and '''Egyptian Meteorological Authority (<span data-scayt_word="ema" data-scaytid="32">EMA</span>)'''. It aims to indicate the areas with high wind speed which is qualified for wind energy projects. The Atlas concluded that, there are many promising areas with high wind speeds in the Gulf of Suez, some areas are located on both sides of the Nile River, and some areas in Sinai. These areas are qualified for hosting the establishment of large-scale wind energy projects.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
A detailed wind atlas has been compiled between 1998 and 2005 in a joint effort by <span data-scayt_word="nrea" data-scaytid="15">NREA</span>, the Egyptian Meteorological Authority (<span data-scayt_word="ema" data-scaytid="16">EMA</span>) and the Danish <span data-scayt_word="unep" data-scaytid="17">UNEP</span> research <span data-scayt_word="centre" data-scaytid="18">centre</span> <span data-scayt_word="risø" data-scaytid="19">Risø</span>. The purpose of the project was to establish a solid meteorological basis for evaluating the country’s wind resources. In addition to data records, the atlas also surveys the Egyptian wind conditions on the basis of wind models and offers detailed, meteorologically based information on site requirements for <span data-scayt_word="mediumsized" data-scaytid="20">mediumsized</span> and large wind farms. The Wind Atlas covers the entire country. However, particular attention was given to six promising areas: the Northwest Coast, the Northeast Coast, the Gulf of <span data-scayt_word="aqaba" data-scaytid="21">Aqaba</span>, the Gulf of Suez, the Red Sea and the Western Desert. It is considered a reliable source of information and is used as the basis for all governmental decisions related to wind energy project planning and feasibility studies.
 
A map of average wind speeds can be found in a study by Mortensen et al.<ref name="Mortensen et al. 2006: Wind Atlas for Egypt: Measurements , micro- and mesoscale modelling. Proceedings of the Third Middle East – North Africa Renewable Energy Conference (MENAREC 3), Cairo, Egypt, June 12-14. 12 pp. fckLR(http://www.windatlas.dk/Egypt/About.html)">Mortensen et al. 2006: Wind Atlas for Egypt: Measurements , micro- and mesoscale modelling. Proceedings of the Third Middle East – North Africa Renewable Energy Conference (MENAREC 3), Cairo, Egypt, June 12-14. 12 pp. fckLR(http://www.windatlas.dk/Egypt/About.html)</ref><br/>
 
For further information a wind atlas has been published by members of the Wind Energy Division at <span data-scayt_word="risø" data-scaytid="22">Risø</span> <span data-scayt_word="dtu" data-scaytid="24">DTU</span> in <span data-scayt_word="roskilde" data-scaytid="25">Roskilde</span><ref name="www.windatlas.dk/Egypt/Index.htm">www.windatlas.dk/Egypt/Index.htm</ref>.
 
<br/>
 
A special wind <span data-scayt_word="atlas36" data-scaytid="26">atlas36</span> for the Gulf of Suez was completed in 2003.<ref name="Mortensen et al. 2003: Wind Atlas for the Gulf of Suez. Measurements and Modelling 1991-2001, New and Renewable Energy Authority, Cairo, and Risø National Laboratory, Roskilde 2003">Mortensen et al. 2003: Wind Atlas for the Gulf of Suez. Measurements and Modelling 1991-2001, New and Renewable Energy Authority, Cairo, and Risø National Laboratory, Roskilde 2003</ref> The assessment determined an overall potential capacity of 20 000 MW for wind power projects in the uninhabited desert regions to the west of the Gulf. A further brief study evaluated the meteorological data gathered from ten weather stations situated along the Mediterranean coast.<ref name="Shata, A.S. Ahmed: Evaluation of wind energy potential and power production on the coast of Mediterranean Sea in Egypt, Faculty of Electrical Engineering and Computer Science, Institute of Energy and Automation Technology, Technical University Berlin, 2006.">Shata, A.S. Ahmed: Evaluation of wind energy potential and power production on the coast of Mediterranean Sea in Egypt, Faculty of Electrical Engineering and Computer Science, Institute of Energy and Automation Technology, Technical University Berlin, 2006.</ref> Three locations – <span data-scayt_word="sidi" data-scaytid="27">Sidi</span> <span data-scayt_word="barrani" data-scaytid="28">Barrani</span>, <span data-scayt_word="mersa" data-scaytid="29">Mersa</span> <span data-scayt_word="matruh" data-scaytid="30">Matruh</span> and El <span data-scayt_word="dabaa" data-scaytid="31">Dabaa</span> – were founded to also exhibit suitable characteristics for the installation of wind turbines. The atlas further indicates that large regions of the eastern and western deserts of the Nile River and parts of Sinai are much higher then hitherto assumed.
 
<br/>
 
Egypt Wind Atlas was issued in December 2005 in co-operation with <span data-scayt_word="riso" data-scaytid="33">RISO</span> laboratories of Denmark, and '''Egyptian Meteorological Authority (<span data-scayt_word="ema" data-scaytid="32">EMA</span>)'''. It aims to indicate the areas with high wind speed which is qualified for wind energy projects. The Atlas concluded that, there are many promising areas with high wind speeds in the Gulf of Suez, some areas are located on both sides of the Nile River, and some areas in Sinai. These areas are qualified for hosting the establishment of large-scale wind energy projects.<br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
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=== Framework Conditions ===
 
=== Framework Conditions ===
To know about the framework conditions for wind energy in Egypt see: [[Wind Energy Country Analysis Egypt#Framework Conditions for Wind Energy|Framework Conditions for wind energy]]
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To know about the framework conditions for wind energy in Egypt see: [[Wind Energy Country Analysis Egypt#Framework Conditions for Wind Energy|Framework Conditions for wind energy]] [[Egypt Energy Situation#toc|►Go to Top]]<br/><br/><br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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=== Licensing Procedures ===
 
=== Licensing Procedures ===
To know more about the Licensing procedures in Egypt see: [[Wind Energy Country Analysis Egypt#Licensing Procedures|Licensing Procedures in Egypt]]<br/>
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To know more about the Licensing procedures in Egypt see: [[Wind Energy Country Analysis Egypt#Licensing Procedures|Licensing Procedures in Egypt]]<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/><br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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=== Business Climate<br/> ===
 
=== Business Climate<br/> ===
For more information about the business climate in Egypt, see: [[Wind Energy Country Analysis Egypt#Business Climate|Business environment for investing in Egypt]]<br/>
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For more information about the business climate in Egypt, see: [[Wind Energy Country Analysis Egypt#Business Climate|Business environment for investing in Egypt]]<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== Solar Energy ==
 
== Solar Energy ==
Solar energy use is still in its infancy, however, regarding the Solar Thermal power (in 2007), the German company <span data-scayt_word="flagsol" data-scaytid="43">Flagsol</span> GmbH won a tender to build a hybrid solar combined cycle plant with a total gross capacity of 140 MW. The solar field is located at ''<span data-scayt_word="kuraymat" data-scaytid="44">Kuraymat</span>'' <ref name="Ministry of Electricity & Energy / New & Renewable Energy Authority (NREA) Annual Report 2010/ 2011fckLR http://www.nrea.gov.eg/annual%20report/Annual_Report_English_2010-2011.pdf">Ministry of Electricity &amp;amp;amp;amp; Energy / New &amp;amp;amp;amp; Renewable Energy Authority (NREA) Annual Report 2010/ 2011fckLR http://www.nrea.gov.eg/annual%20report/Annual_Report_English_2010-2011.pdf</ref>and is co-financed by the Global Environmental Facility (<span data-scayt_word="gef" data-scaytid="48">GEF</span>) and the Japanese Bank for International Development. This <span data-scayt_word="kuraymat" data-scaytid="46">Kuraymat</span> site is located nearly 90 km South Cairo, and has been selected because of the following advantages:high intensity direct solar radiation reaches to 2400 kWh /<span data-scayt_word="m2" data-scaytid="50">m2</span> / year,an extended unified power grid and expanded natural gas pipelines,located near to the sources of water (the River Nile) and an uninhabited flat desert land.<br/>
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Solar energy use is still in its infancy, however, regarding the Solar Thermal power (in 2007), the German company <span data-scayt_word="flagsol" data-scaytid="43">Flagsol</span> GmbH won a tender to build a hybrid solar combined cycle plant with a total gross capacity of 140 MW. The solar field is located at ''<span data-scayt_word="kuraymat" data-scaytid="44">Kuraymat</span>'' <ref name="Ministry of Electricity & Energy / New & Renewable Energy Authority (NREA) Annual Report 2010/ 2011fckLR http://www.nrea.gov.eg/annual%20report/Annual_Report_English_2010-2011.pdf">Ministry of Electricity &amp;amp;amp;amp; Energy / New &amp;amp;amp;amp; Renewable Energy Authority (NREA) Annual Report 2010/ 2011fckLR http://www.nrea.gov.eg/annual%20report/Annual_Report_English_2010-2011.pdf</ref>and is co-financed by the Global Environmental Facility (<span data-scayt_word="gef" data-scaytid="48">GEF</span>) and the Japanese Bank for International Development. This <span data-scayt_word="kuraymat" data-scaytid="46">Kuraymat</span> site is located nearly 90 km South Cairo, and has been selected because of the following advantages:high intensity direct solar radiation reaches to 2400 kWh /<span data-scayt_word="m2" data-scaytid="50">m2</span> / year,an extended unified power grid and expanded natural gas pipelines,located near to the sources of water (the River Nile) and an uninhabited flat desert land.<br/><br/>The project based on parabolic trough technology integrated with combined cycle power plant using natural gas as a fuel.The project is one of 3 similar projects that are being implemented in Africa ([[Morocco Energy Situation|Morocco]], [[Algeria Energy Situation|Algeria]] and Egypt), and mainly depend on integrating solar field with combined cycle.The capacity of the project is : 140 MW including solar share of 20 MW. The Total cost is : about 340 Million US Dollar as follow: 50 Million dollar grant from '''Global Environment Facility (<span data-scayt_word="gef" data-scaytid="53">GEF</span>)''' – World Bank,190 Million US Dollar soft loan from '''Japanese International Cooperation Agency (<span data-scayt_word="jica" data-scaytid="58">JICA</span>)''' (0,75% interest – 40 years repayment period including 10 years grace period).<br/><br/>100 Million US Dollar provided by <span data-scayt_word="nrea" data-scaytid="56">NREA</span> through national banks.<br/><br/><br/>
<br/>The project based on parabolic trough technology integrated with combined cycle power plant using natural gas as a fuel.The project is one of 3 similar projects that are being implemented in Africa ([[Morocco Energy Situation|Morocco]], [[Algeria Energy Situation|Algeria]] and Egypt), and mainly depend on integrating solar field with combined cycle.The capacity of the project is : 140 MW including solar share of 20 MW. The Total cost is : about 340 Million US Dollar as follow: 50 Million dollar grant from '''Global Environment Facility (<span data-scayt_word="gef" data-scaytid="53">GEF</span>)''' – World Bank,190 Million US Dollar soft loan from '''Japanese International Cooperation Agency (<span data-scayt_word="jica" data-scaytid="58">JICA</span>)''' (0,75% interest – 40 years repayment period including 10 years grace period).<br/>
 
<br/>100 Million US Dollar provided by <span data-scayt_word="nrea" data-scaytid="56">NREA</span> through national banks.<br/>
 
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{| align="left" style="width: 754px;" border="1" cellspacing="1" cellpadding="1"
 
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|+ <span data-scayt_word="kuraymat" data-scaytid="57">Kuraymat</span> project data
 
|+ <span data-scayt_word="kuraymat" data-scaytid="57">Kuraymat</span> project data
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<div style="clear: both;"></div>Commercial operation is scheduled for mid 2010. Egypt plans to extend the solar capacities with further solar thermal and photovoltaic power plant projects.<ref>Solar Millenium AG 2008</ref>The five year plan (<span data-scayt_word="2012→2017" data-scaytid="73">2012→2017</span>) includes implementing 100 MW solar thermal power plant as solar energy projects are considered as corner stone in disseminating renewable energy utilization. ''<span data-scayt_word="kom" data-scaytid="74">Kom</span> <span data-scayt_word="ombo" data-scaytid="75">Ombo</span> ''site was selected to host 100 MW Solar Thermal Power Plant Project. The consultant was selected in June 2011 in order to conduct the project feasibility study. It is expected to be finalized in mid-2012. The available finance to date is 440 Million dollar divided as follows: 100 Million dollar from <span data-scayt_word="ctf" data-scaytid="76">CTF</span> (99 million dollar as loan + 1 Million grant to prepare the environmental study and technical support), 170 Million dollar from the World Bank,170 Million dollar from African Development Bank,50 Million Euro from European Investment Bank, 50 Million Euro from French Agency Development and 50 Million Euro from German Government.<br/>As for the '''[[Photovoltaic (PV)|PV power]]'''; despite being an expensive technology, Photovoltaic systems are considered the most appropriate energy application for rural and remote areas of small scattered loads which are far away from national grid. The cost of PV systems’ maintenance is limited while the PV life time is about 25 years. The total installed capacity of PV systems in Egypt is around 10 MW for lighting, water pumping, wireless communications, cooling and commercial advertisements on highways.<br/><br/><span data-scayt_word="nrea" data-scaytid="78">NREA</span> signed a protocol for co-operation with the Italian Ministry of Environment, Land and Sea to electrify two remote settlements in <span data-scayt_word="matrouh" data-scaytid="82">Matrouh</span> <span data-scayt_word="governorate" data-scaytid="83">Governorate</span> by PV systems. The project consists of: the electrification of 100 houses and 40 street light units, electrification of 1 school and 3 mosques and the electrification of 2 medical clinic units. The project has been completed and operated since December 2010.<br/><br/>Regarding the Future plan of Egypt for PV Projects : there is a proposed project to implement 20 MW solar Plant in <span data-scayt_word="hurghada" data-scaytid="87">Hurghada</span> in co-operation with <span data-scayt_word="jica" data-scaytid="85">JICA</span> where '''Tokyo Electric Power Service Company (<span data-scayt_word="tepsco" data-scaytid="89">TEPSCO</span>) '''was selected to conduct the project feasibility study.The solar radiation measurement equipment was supplied beside the supply of 2 modules to measure the sand effect in the site according to solar cell performance has been erected since October 2011. The duration of the project is 18 month started from 18 January. Moreover, the second proposed project is to implement 20 MW solar plant in <span data-scayt_word="kom" data-scaytid="99">kom</span> <span data-scayt_word="ombo" data-scaytid="97">Ombo</span> in co-operation with French development agency (<span data-scayt_word="afd" data-scaytid="101">AFD</span>) where the feasibility study will be prepared through a grant presented from <span data-scayt_word="afd" data-scaytid="102">AFD</span> with an amount of 800 thousand Euro .The grant agreement to be signed between The Ministry of International Cooperation & <span data-scayt_word="afd" data-scaytid="103">AFD</span> is under study. .<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
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<div style="clear: both;"></div>Commercial operation is scheduled for mid 2010. Egypt plans to extend the solar capacities with further solar thermal and photovoltaic power plant projects.<ref>Solar Millenium AG 2008</ref>The five year plan (<span data-scayt_word="2012→2017" data-scaytid="73">2012→2017</span>) includes implementing 100 MW solar thermal power plant as solar energy projects are considered as corner stone in disseminating renewable energy utilization. ''<span data-scayt_word="kom" data-scaytid="74">Kom</span> <span data-scayt_word="ombo" data-scaytid="75">Ombo</span> ''site was selected to host 100 MW Solar Thermal Power Plant Project. The consultant was selected in June 2011 in order to conduct the project feasibility study. It is expected to be finalized in mid-2012. The available finance to date is 440 Million dollar divided as follows: 100 Million dollar from <span data-scayt_word="ctf" data-scaytid="76">CTF</span> (99 million dollar as loan + 1 Million grant to prepare the environmental study and technical support), 170 Million dollar from the World Bank,170 Million dollar from African Development Bank,50 Million Euro from European Investment Bank, 50 Million Euro from French Agency Development and 50 Million Euro from German Government.<br/>
 
As for the '''[[Photovoltaic (PV)|PV power]]'''; despite being an expensive technology, Photovoltaic systems are considered the most appropriate energy application for rural and remote areas of small scattered loads which are far away from national grid. The cost of PV systems’ maintenance is limited while the PV life time is about 25 years. The total installed capacity of PV systems in Egypt is around 10 MW for lighting, water pumping, wireless communications, cooling and commercial advertisements on highways.<br/>
 
<br/>
 
<span data-scayt_word="nrea" data-scaytid="78">NREA</span> signed a protocol for co-operation with the Italian Ministry of Environment, Land and Sea to electrify two remote settlements in <span data-scayt_word="matrouh" data-scaytid="82">Matrouh</span> <span data-scayt_word="governorate" data-scaytid="83">Governorate</span> by PV systems. The project consists of: the electrification of 100 houses and 40 street light units, electrification of 1 school and 3 mosques and the electrification of 2 medical clinic units. The project has been completed and operated since December 2010.<br/>
 
<br/>
 
Regarding the Future plan of Egypt for PV Projects : there is a proposed project to implement 20 MW solar Plant in <span data-scayt_word="hurghada" data-scaytid="87">Hurghada</span> in co-operation with <span data-scayt_word="jica" data-scaytid="85">JICA</span> where '''Tokyo Electric Power Service Company (<span data-scayt_word="tepsco" data-scaytid="89">TEPSCO</span>) '''was selected to conduct the project feasibility study.The solar radiation measurement equipment was supplied beside the supply of 2 modules to measure the sand effect in the site according to solar cell performance has been erected since October 2011. The duration of the project is 18 month started from 18 January. Moreover, the second proposed project is to implement 20 MW solar plant in <span data-scayt_word="kom" data-scaytid="99">kom</span> <span data-scayt_word="ombo" data-scaytid="97">Ombo</span> in co-operation with French development agency (<span data-scayt_word="afd" data-scaytid="101">AFD</span>) where the feasibility study will be prepared through a grant presented from <span data-scayt_word="afd" data-scaytid="102">AFD</span> with an amount of 800 thousand Euro .The grant agreement to be signed between The Ministry of International Cooperation & <span data-scayt_word="afd" data-scaytid="103">AFD</span> is under study. .<br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== Hydro Power ==
 
== Hydro Power ==
The total installed capacity from hydropower accounted for 2 842 MW in 2008. Hydropower installations include High Dam (2 100 MW), Aswan Dam I (322 MW), Aswan Dam II (270 MW), <span data-scayt_word="esna" data-scaytid="110">Esna</span> (86 MW). Current hydro power projects include the New <span data-scayt_word="hammasi" data-scaytid="111">Hammasi</span> plant with an installed capacity of 4 x 16 MW, which started operations in 2008. For 2014, the commissioning of the New <span data-scayt_word="assuit" data-scaytid="112">Assuit</span> Barrage hydro electricity plant, with an installed capacity of 32 MW, is projected.
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The total installed capacity from hydropower accounted for 2 842 MW in 2008. Hydropower installations include High Dam (2 100 MW), Aswan Dam I (322 MW), Aswan Dam II (270 MW), <span data-scayt_word="esna" data-scaytid="110">Esna</span> (86 MW). Current hydro power projects include the New <span data-scayt_word="hammasi" data-scaytid="111">Hammasi</span> plant with an installed capacity of 4 x 16 MW, which started operations in 2008. For 2014, the commissioning of the New <span data-scayt_word="assuit" data-scaytid="112">Assuit</span> Barrage hydro electricity plant, with an installed capacity of 32 MW, is projected. [[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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= Electricity Situation<ref name="EEHC 2008">EEHC 2008</ref> =
 
= Electricity Situation<ref name="EEHC 2008">EEHC 2008</ref> =
<span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">Egypt is a net exporter of electricity, importing 208 <span data-scayt_word="gwh" data-scaytid="114">GWh</span> of electricity in 2006, while exporting 557 <span data-scayt_word="gwh" data-scaytid="115">GWh</span>. Transmission and distribution losses account for approximately 10 % (12 583 <span data-scayt_word="gwh" data-scaytid="116">GWh</span>) of total electricity produced.<span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">In 2005, losses added up to 16 % of total electricity supply. The main consumer of electricity in Egypt is the residential sector which accounts for 37 % of the total consumption, followed close by the industrial sector (35 %). A future average annual growth in electricity demand of 6.35 % is expected, partly due to rising living standards and very low electricity prices.</span></span>
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<span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">Egypt is a net exporter of electricity, importing 208 <span data-scayt_word="gwh" data-scaytid="114">GWh</span> of electricity in 2006, while exporting 557 <span data-scayt_word="gwh" data-scaytid="115">GWh</span>. Transmission and distribution losses account for approximately 10 % (12 583 <span data-scayt_word="gwh" data-scaytid="116">GWh</span>) of total electricity produced.<span style="line-height: 20.4px; font-size: 13.6px; background-color: rgb(255, 255, 255);">In 2005, losses added up to 16 % of total electricity supply. The main consumer of electricity in Egypt is the residential sector which accounts for 37 % of the total consumption, followed close by the industrial sector (35 %). A future average annual growth in electricity demand of 6.35 % is expected, partly due to rising living standards and very low electricity prices.</span></span><br/><br/><br/>
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<br/><br/><br/><br/><br/><br/><br/>In order to meet the expected growth in demand, <span data-scayt_word="eehc" data-scaytid="129">EEHC</span> prepared the <span data-scayt_word="6th" data-scaytid="130">6th</span> five year plan (2008 – 2012). The plan entails adding electricity production capacity of 7 750 MW, while at the same time maximizing the use of combined cycle installations to reach a 37 % share of the total installed capacity in 2011/2012. On 31 January 2009, the government has finalized the follow-up five-year plan from 2012 – 2017 which aims at adding further 10 450 MW generation capacity.<br/><br/>
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In order to meet the expected growth in demand, <span data-scayt_word="eehc" data-scaytid="129">EEHC</span> prepared the <span data-scayt_word="6th" data-scaytid="130">6th</span> five year plan (2008 – 2012). The plan entails adding electricity production capacity of 7 750 MW, while at the same time maximizing the use of combined cycle installations to reach a 37 % share of the total installed capacity in 2011/2012. On 31 January 2009, the government has finalized the follow-up five-year plan from 2012 – 2017 which aims at adding further 10 450 MW generation capacity.
 
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[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/><br/>
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== Electricity Grid ==
 
== Electricity Grid ==
In 2007 / 2008, the state-owned carrier grid consisted of 39 552 km. The grid is subdivided into six geographical zones, namely Cairo, Canal, Delta, Alexandria and West Delta, Middle Egypt and Upper Egypt. The country’s entire territory is covered by the grid.
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In 2007 / 2008, the state-owned carrier grid consisted of 39 552 km. The grid is subdivided into six geographical zones, namely Cairo, Canal, Delta, Alexandria and West Delta, Middle Egypt and Upper Egypt. The country’s entire territory is covered by the grid. Medium and low voltage as well as isolated grids are owned and operated by the respective distribution companies. In June 2008, the distribution grid consisted of 142 983 km of medium voltage and 230 187 km of low voltage lines (not including non-energy use). Since 1998, efforts have been made to interconnect the Egyptian electricity grid internationally. As a result, the five-country interconnection of Egypt’s system with those of [[Jordan Energy Situation|Jordan]], [[Syria Energy Situation|Syria]], <span data-scayt_word="lybia" data-scaytid="137">Lybia</span> and [[Turkey Energy Situation|Turkey]] has been completed in 2002.<ref name="EIA 2008. Energy Information Administration. Country Analysis Briefs – Egypt.">EIA 2008. Energy Information Administration. Country Analysis Briefs – Egypt.</ref>Links to the European electricity market have been established through the sub-marine connection between Morocco and Spain (400 KV) and over the connection Syria –Turkey. In April 2004, the Arab <span data-scayt_word="maghreb" data-scaytid="139">Maghreb</span> countries agreed to <span data-scayt_word="repower" data-scaytid="140">repower</span> the national grids of Egypt and Libya in order to upgrade the interconnection.In the fiscal year 2007 / 2008, the '''Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="138">EEHC</span>)''' faced a challenge meeting the unexpectedly high peak demand, reaching 19 738 MW<br/><br/><br/><br/>
Medium and low voltage as well as isolated grids are owned and operated by the respective distribution companies. In June 2008, the distribution grid consisted of 142 983 km of medium voltage and 230 187 km of low voltage lines (not including non-energy use). Since 1998, efforts have been made to interconnect the Egyptian electricity grid internationally. As a result, the five-country interconnection of Egypt’s system with those of [[Jordan Energy Situation|Jordan]], [[Syria Energy Situation|Syria]], <span data-scayt_word="lybia" data-scaytid="137">Lybia</span> and [[Turkey Energy Situation|Turkey]] has been completed in 2002.<ref name="EIA 2008. Energy Information Administration. Country Analysis Briefs – Egypt.">EIA 2008. Energy Information Administration. Country Analysis Briefs – Egypt.</ref>Links to the European electricity market have been established through the sub-marine connection between Morocco and Spain (400 KV) and over the connection Syria –Turkey.
 
In April 2004, the Arab <span data-scayt_word="maghreb" data-scaytid="139">Maghreb</span> countries agreed to <span data-scayt_word="repower" data-scaytid="140">repower</span> the national grids of Egypt and Libya in order to upgrade the interconnection.In the fiscal year 2007 / 2008, the '''Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="138">EEHC</span>)''' faced a challenge meeting the unexpectedly high peak demand, reaching 19 738 MW<br/>
 
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{| style="width: 768px;" border="1" cellspacing="1" cellpadding="1"
 
{| style="width: 768px;" border="1" cellspacing="1" cellpadding="1"
 
|+ '''THE EGYPTIAN TRANSMISSION GRID, KEY FIGURES 2008'''<ref name="EEHC 2008">EEHC 2008</ref><br/>
 
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|+ '''PEAK LOADS IN THE INTERCONNECTED ELECTRICITY GRID; 2003 – 2008'''<ref name="EEHC 2008">EEHC 2008</ref><br/>
 
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<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
 
== Electricity Price ==
 
== Electricity Price ==
The electricity prices in Egypt range among the lowest in the world. The prices are fixed by the Egyptian government in a non-transparent manner and apply in equal manner to all regions. Electricity is highly subsidized. Since October 2004, several electricity tariffs were raised, by an average of 8.6 %, for the first time since 1992 and further 5 % increases were set for all electricity customers for each of the following five years. The last increase took place in November 2008. In 2008, the rise summed up to 7.5 %, including an additional 2.5 %-increase caused by high oil prices.<br/>
+
The electricity prices in Egypt range among the lowest in the world. The prices are fixed by the Egyptian government in a non-transparent manner and apply in equal manner to all regions. Electricity is highly subsidized. Since October 2004, several electricity tariffs were raised, by an average of 8.6 %, for the first time since 1992 and further 5 % increases were set for all electricity customers for each of the following five years. The last increase took place in November 2008. In 2008, the rise summed up to 7.5 %, including an additional 2.5 %-increase caused by high oil prices.<br/>Although the increase in some segments exceeded 18 %; prices of the first segment of domestic consumption (less than 50 kWh per month, mainly composed of low income families) remained unchanged at 5 Pt (approximately 0.62 €<span data-scayt_word="-ct" data-scaytid="147">-ct</span>). The highest increase was seen for the residential consumers with a demand of >1000 kWh/ month. The governmental plan was intended to gradually accommodate the electricity prices to the actual cost of the electricity system. However, taking into consideration annual inflation rates exceeding 5 %, these increases may not suffice. The new electricity law is supposed to specify the main principles of price regulation such as the ones mentioned above.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/>
Although the increase in some segments exceeded 18 %; prices of the first segment of domestic consumption (less than 50 kWh per month, mainly composed of low income families) remained unchanged at 5 Pt (approximately 0.62 €<span data-scayt_word="-ct" data-scaytid="147">-ct</span>). The highest increase was seen for the residential consumers with a demand of >1000 kWh/ month. The governmental plan was intended to gradually accommodate the electricity prices to the actual cost of the electricity system. However, taking into consideration annual inflation rates exceeding 5 %, these increases may not suffice. The new electricity law is supposed to specify the main principles of price regulation such as the ones mentioned above.<br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
 
== Rural Electrification<br/> ==
 
== Rural Electrification<br/> ==
Under the Egyptian government rural electrification <span data-scayt_word="programme" data-scaytid="149">programme</span>, a countrywide electrification rate of 99 % was achieved through grid extension projects. As assessed in a study by <span data-scayt_word="medrec" data-scaytid="150">MEDREC</span><ref name="MEDREC 2004. Mediterranean Renewable Energy Center: MEDREC Report 2004, available at: http://www.medrec.org/en/download/REPORT%20MEDREC%202004_egypt.pdf ; Retrieved on 10.09.2009">MEDREC 2004. Mediterranean Renewable Energy Center: MEDREC Report 2004, available at: http://www.medrec.org/en/download/REPORT%20MEDREC%202004_egypt.pdf ; Retrieved on 10.09.2009</ref> in 2004, there have been approximately 121 remote villages and communities which still do not have access to electricity. The Rural Electrification Authority’s target for 2008 was to electrify 327 little settlements, the strengthening of 31 village grids and the refurbishment of 41 further grids.<ref name="MoEE 2009. Ministry of Electricity and Energy. http://www.moee.gov.eg; Retrieved on: 02.09.2009">MoEE 2009. Ministry of Electricity and Energy. http://www.moee.gov.eg; Retrieved on: 02.09.2009</ref><br/>
+
Under the Egyptian government rural electrification <span data-scayt_word="programme" data-scaytid="149">programme</span>, a countrywide electrification rate of 99 % was achieved through grid extension projects. As assessed in a study by <span data-scayt_word="medrec" data-scaytid="150">MEDREC</span><ref name="MEDREC 2004. Mediterranean Renewable Energy Center: MEDREC Report 2004, available at: http://www.medrec.org/en/download/REPORT%20MEDREC%202004_egypt.pdf ; Retrieved on 10.09.2009">MEDREC 2004. Mediterranean Renewable Energy Center: MEDREC Report 2004, available at: http://www.medrec.org/en/download/REPORT%20MEDREC%202004_egypt.pdf ; Retrieved on 10.09.2009</ref> in 2004, there have been approximately 121 remote villages and communities which still do not have access to electricity. The Rural Electrification Authority’s target for 2008 was to electrify 327 little settlements, the strengthening of 31 village grids and the refurbishment of 41 further grids.<ref name="MoEE 2009. Ministry of Electricity and Energy. http://www.moee.gov.eg; Retrieved on: 02.09.2009">MoEE 2009. Ministry of Electricity and Energy. http://www.moee.gov.eg; Retrieved on: 02.09.2009</ref><br/><br/>For the few remaining remote settlements, the decentralized use of renewable energy resources is under consideration as an alternative to actual grid access. Due to the dispersed nature of both houses and rural communities, in addition to their low demand, the extension of the grid is economically unfeasible. The project <span data-scayt_word="medrep" data-scaytid="154">MEDREP</span>, a joint project being conducted by <span data-scayt_word="nrea" data-scaytid="152">NREA</span>, the <span data-scayt_word="governorate" data-scaytid="156">governorate</span> of North Sinai, the Egyptian environmental authorities, the Rural Electrification Agency (REA) and initiated by the Italian Ministry of Environment in 2004, aims at supplying electricity through photovoltaic to these remote rural communities as well as the utilization of solar thermal energy for heating and cooling purposes in tourist resorts and new villages.<ref>MEDREC 2004</ref><br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
<br/>For the few remaining remote settlements, the decentralized use of renewable energy resources is under consideration as an alternative to actual grid access. Due to the dispersed nature of both houses and rural communities, in addition to their low demand, the extension of the grid is economically unfeasible. The project <span data-scayt_word="medrep" data-scaytid="154">MEDREP</span>, a joint project being conducted by <span data-scayt_word="nrea" data-scaytid="152">NREA</span>, the <span data-scayt_word="governorate" data-scaytid="156">governorate</span> of North Sinai, the Egyptian environmental authorities, the Rural Electrification Agency (REA) and initiated by the Italian Ministry of Environment in 2004, aims at supplying electricity through photovoltaic to these remote rural communities as well as the utilization of solar thermal energy for heating and cooling purposes in tourist resorts and new villages.<ref>MEDREC 2004</ref><br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
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= Political Framework Conditions in the Energy Sector<br/> =
 
= Political Framework Conditions in the Energy Sector<br/> =
Egypt has a national energy strategy, although only adopted at the level of the energy policy committee of the governing party. The strategy covers the diversification of the energy mix, higher energy efficiency, a reform of the electricity and the oil as well as natural gas markets and reduction of energy subsidies. The renewable energy strategy is a fundamental part of the national energy strategy.<br/>
+
Egypt has a national energy strategy, although only adopted at the level of the energy policy committee of the governing party. The strategy covers the diversification of the energy mix, higher energy efficiency, a reform of the electricity and the oil as well as natural gas markets and reduction of energy subsidies. The renewable energy strategy is a fundamental part of the national energy strategy.<br/><br/>The diversification of the energy mix in the electricity sector is one of the main goals of the energy strategy. It aims to reduce the consumption of fossil fuels while increasing the share of renewable energy sources and giving a new impulse to the nuclear electricity program suspended in the <span data-scayt_word="1980s" data-scaytid="158">1980s</span>. In February 2008, the government set a new ambitious target of 20 % renewable energy in electricity production by 2020 excluding existing large hydro power plants.<ref name="JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009">JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009</ref> Although no nuclear electricity generation targets have been set, the government launched a nuclear electricity plan in 2007. First steps to implement it have already been taken.<ref name="ESIS 2008 - Egypt State Information Service. Egypt on the Threshold of a Nuclear Age. (http://www.sis.gov.eg/En/Pub/magazin/winter2008/110235000000000015.htm) Retrieved on 10th September 2009; NPPA 2009 - Nuclear Power Plants Authority. Egyptian Nuclear Program. Technical meeting on invitation and evaluation of bids for nuclear power plants. (http://www.iaea.org/NuclearPower/...F/.../Egypt_Ali_Abd_El_Nabi.pdf) Retrieved on 8th September 2009">ESIS 2008 - Egypt State Information Service. Egypt on the Threshold of a Nuclear Age. (http://www.sis.gov.eg/En/Pub/magazin/winter2008/110235000000000015.htm) Retrieved on 10th September 2009; NPPA 2009 - Nuclear Power Plants Authority. Egyptian Nuclear Program. Technical meeting on invitation and evaluation of bids for nuclear power plants. (http://www.iaea.org/NuclearPower/...F/.../Egypt_Ali_Abd_El_Nabi.pdf) Retrieved on 8th September 2009</ref><br/><br/>Improving energy efficiency is a fundamental part of the strategy as well. It aims at tackling the fast growth of primary energy consumption, which tends to grow as rapidly as or even higher than real economic growth. Although numerous regulations exist for the main energy consuming sectors, implementation and enforcement is often quite low.<ref name="JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009">JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009</ref> The policy on energy subsidies has changed due to the reduction of oil reserves and the financial problems associated with the existing schemes. The domestic natural gas and electricity prices have been adjusted in 2008 in order to cover at least the cost of service. Subsidies are being reduced gradually, first in energy intensive industries, and second in the tourism sector, though energy subsidies for the average consumer are not expected to change significantly.<ref name="JCEE 2009; Marquer 2009. Egypt moves towards renewable energy. In: Business monthly, April 2009.">JCEE 2009; Marquer 2009. Egypt moves towards renewable energy. In: Business monthly, April 2009.</ref> With regard to the energy market, the adopted energy strategy aims to establish a fully competitive structure, where electricity production, transmission and distribution activities are fully unbundled. The strategy should also create <span data-scayt_word="favourable" data-scaytid="160">favourable</span> conditions to achieve the 20 % renewable energy in electricity production.<ref name="El-Salmawy 2009. Renewable Energy Strategy for 20/20 and Regulatory Framework. Egyptian Electric Utility and Customer Protection Regulatory Agency. (http://www.jcee-eg.net/libdetails.asp?typeID=4)">El-Salmawy 2009. Renewable Energy Strategy for 20/20 and Regulatory Framework. Egyptian Electric Utility and Customer Protection Regulatory Agency. (http://www.jcee-eg.net/libdetails.asp?typeID=4)</ref> [[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
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The diversification of the energy mix in the electricity sector is one of the main goals of the energy strategy. It aims to reduce the consumption of fossil fuels while increasing the share of renewable energy sources and giving a new impulse to the nuclear electricity program suspended in the <span data-scayt_word="1980s" data-scaytid="158">1980s</span>. In February 2008, the government set a new ambitious target of 20 % renewable energy in electricity production by 2020 excluding existing large hydro power plants.<ref name="JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009">JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009</ref> Although no nuclear electricity generation targets have been set, the government launched a nuclear electricity plan in 2007. First steps to implement it have already been taken.<ref name="ESIS 2008 - Egypt State Information Service. Egypt on the Threshold of a Nuclear Age. (http://www.sis.gov.eg/En/Pub/magazin/winter2008/110235000000000015.htm) Retrieved on 10th September 2009; NPPA 2009 - Nuclear Power Plants Authority. Egyptian Nuclear Program. Technical meeting on invitation and evaluation of bids for nuclear power plants. (http://www.iaea.org/NuclearPower/...F/.../Egypt_Ali_Abd_El_Nabi.pdf) Retrieved on 8th September 2009">ESIS 2008 - Egypt State Information Service. Egypt on the Threshold of a Nuclear Age. (http://www.sis.gov.eg/En/Pub/magazin/winter2008/110235000000000015.htm) Retrieved on 10th September 2009; NPPA 2009 - Nuclear Power Plants Authority. Egyptian Nuclear Program. Technical meeting on invitation and evaluation of bids for nuclear power plants. (http://www.iaea.org/NuclearPower/...F/.../Egypt_Ali_Abd_El_Nabi.pdf) Retrieved on 8th September 2009</ref><br/>
 
<br/>
 
Improving energy efficiency is a fundamental part of the strategy as well. It aims at tackling the fast growth of primary energy consumption, which tends to grow as rapidly as or even higher than real economic growth. Although numerous regulations exist for the main energy consuming sectors, implementation and enforcement is often quite low.<ref name="JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009">JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009</ref> The policy on energy subsidies has changed due to the reduction of oil reserves and the financial problems associated with the existing schemes. The domestic natural gas and electricity prices have been adjusted in 2008 in order to cover at least the cost of service. Subsidies are being reduced gradually, first in energy intensive industries, and second in the tourism sector, though energy subsidies for the average consumer are not expected to change significantly.<ref name="JCEE 2009; Marquer 2009. Egypt moves towards renewable energy. In: Business monthly, April 2009.">JCEE 2009; Marquer 2009. Egypt moves towards renewable energy. In: Business monthly, April 2009.</ref> With regard to the energy market, the adopted energy strategy aims to establish a fully competitive structure, where electricity production, transmission and distribution activities are fully unbundled. The strategy should also create <span data-scayt_word="favourable" data-scaytid="160">favourable</span> conditions to achieve the 20 % renewable energy in electricity production.<ref name="El-Salmawy 2009. Renewable Energy Strategy for 20/20 and Regulatory Framework. Egyptian Electric Utility and Customer Protection Regulatory Agency. (http://www.jcee-eg.net/libdetails.asp?typeID=4)">El-Salmawy 2009. Renewable Energy Strategy for 20/20 and Regulatory Framework. Egyptian Electric Utility and Customer Protection Regulatory Agency. (http://www.jcee-eg.net/libdetails.asp?typeID=4)</ref>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
<br/>
 
 
== Framework Conditions for Renewable Energies<br/> ==
 
== Framework Conditions for Renewable Energies<br/> ==
  
 
=== Strategy and Objectives for Renewable Energies<br/> ===
 
=== Strategy and Objectives for Renewable Energies<br/> ===
Egypt’s renewable energy strategy was formulated in the early <span data-scayt_word="1980s" data-scaytid="162">1980s</span> as an integral part of the national energy planning. This strategy has been revised and adapted according to the changing financial, market and technological framework conditions. The target of a 20 % renewable electricity by 2020 (around 12 000 MW) is highly ambitious compared to the previous target set in 2000 of 14 % RE-E by 2021/22.<ref name="El-Salmawy 2004. Egyptian Power Sector Reform and New Electricity Law. EEUCPRA.">El-Salmawy 2004. Egyptian Power Sector Reform and New Electricity Law. EEUCPRA.</ref><br/>
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Egypt’s renewable energy strategy was formulated in the early <span data-scayt_word="1980s" data-scaytid="162">1980s</span> as an integral part of the national energy planning. This strategy has been revised and adapted according to the changing financial, market and technological framework conditions. The target of a 20 % renewable electricity by 2020 (around 12 000 MW) is highly ambitious compared to the previous target set in 2000 of 14 % RE-E by 2021/22.<ref name="El-Salmawy 2004. Egyptian Power Sector Reform and New Electricity Law. EEUCPRA.">El-Salmawy 2004. Egyptian Power Sector Reform and New Electricity Law. EEUCPRA.</ref><br/><br/><br/>
<br/>
 
<br/>
 
 
=== Legal conditions and support Schemes for renewable Energies ===
 
=== Legal conditions and support Schemes for renewable Energies ===
<u>To implement the strategy, a two phase policy is planned:</u><br/>
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<u>To implement the strategy, a two phase policy is planned:</u><br/><br/><br/>
<br/>
 
<br/>
 
 
*Phase 1 will adopt competitive bids through issuing tenders requesting the private sector to supply electricity from renewable energy sources. A <span data-scayt_word="ppa" data-scaytid="164">PPA</span> agreement, mostly for 20 years, will be guaranteed. This competitive bidding is based on existing law, which also supports the existing <span data-scayt_word="ipp" data-scaytid="165">IPP</span>.
 
*Phase 1 will adopt competitive bids through issuing tenders requesting the private sector to supply electricity from renewable energy sources. A <span data-scayt_word="ppa" data-scaytid="164">PPA</span> agreement, mostly for 20 years, will be guaranteed. This competitive bidding is based on existing law, which also supports the existing <span data-scayt_word="ipp" data-scaytid="165">IPP</span>.
 
*In Phase 2, a feed-in-tariff will be implemented, in particular for medium and small size projects. This will be based on the new electricity law.<br/>
 
*In Phase 2, a feed-in-tariff will be implemented, in particular for medium and small size projects. This will be based on the new electricity law.<br/>
<br/>
+
<br/>Further support instruments are the right of access and priority dispatching for electricity generation from renewable sources, which is already implemented, whenever they are available and the establishment of a Renewable Energy Fund. This fund will support the renewable energy activities of the <span data-scayt_word="mee" data-scaytid="168">MEE</span> and the <span data-scayt_word="mop" data-scaytid="169">MoP</span> covering the deficit between the renewable energy costs and market prices as well as providing financial support to pilot projects. It will be mainly financed through a levy on subsidized fossil fuel sales for electricity generation.<ref name="El-Salmawy 2009; JCEE 2009">El-Salmawy 2009; JCEE 2009</ref><br/><br/><u>'''Competitive bids'''</u><br/><u>It is planned to tender a total of 2 500 MW through five bids, divided in blocks of 250 MW. The framework criteria for the tenders include:</u><br/><br/><br/>
Further support instruments are the right of access and priority dispatching for electricity generation from renewable sources, which is already implemented, whenever they are available and the establishment of a Renewable Energy Fund. This fund will support the renewable energy activities of the <span data-scayt_word="mee" data-scaytid="168">MEE</span> and the <span data-scayt_word="mop" data-scaytid="169">MoP</span> covering the deficit between the renewable energy costs and market prices as well as providing financial support to pilot projects. It will be mainly financed through a levy on subsidized fossil fuel sales for electricity generation.<ref name="El-Salmawy 2009; JCEE 2009">El-Salmawy 2009; JCEE 2009</ref><br/>
 
<br/>
 
<u>'''Competitive bids'''</u><br/>
 
<u>It is planned to tender a total of 2 500 MW through five bids, divided in blocks of 250 MW. The framework criteria for the tenders include:</u><br/>
 
<br/>
 
<br/>
 
 
*Controlled increase of the renewable based electricity capacity according to the capacity of transmission system and the capacity of the market.
 
*Controlled increase of the renewable based electricity capacity according to the capacity of transmission system and the capacity of the market.
 
*Attracting highly qualified international developers with strong financial status and high capacity for technology transfer.<br/>
 
*Attracting highly qualified international developers with strong financial status and high capacity for technology transfer.<br/>
Line 415: Line 315:
 
*Achieving the lowest possible prices.<br/>
 
*Achieving the lowest possible prices.<br/>
 
*Reducing the financial risk for investors guaranteeing long term <span data-scayt_word="ppas" data-scaytid="170">PPAs</span> (mostly of 20 years). The first process has started with a prequalification tender for 250 MW in <span data-scayt_word="gabal" data-scaytid="171">Gabal</span> el <span data-scayt_word="zeyt" data-scaytid="172">Zeyt</span>. The last tender will be opened by 2017.<br/>
 
*Reducing the financial risk for investors guaranteeing long term <span data-scayt_word="ppas" data-scaytid="170">PPAs</span> (mostly of 20 years). The first process has started with a prequalification tender for 250 MW in <span data-scayt_word="gabal" data-scaytid="171">Gabal</span> el <span data-scayt_word="zeyt" data-scaytid="172">Zeyt</span>. The last tender will be opened by 2017.<br/>
<br/>
+
<br/><u>'''Feed-in-tariff'''</u><br/>The system is supposed to offer incentives to install 2 500 MW of additional capacity. It is addressed to small and medium size projects up to 50 MW. The tariff will be probably set for 15 years, taking into consideration wind speed and installed capacity. The system is still under elaboration.<br/>[[Egypt Energy Situation#Overview|►Go to Top]]<br/><br/><br/>
<u>'''Feed-in-tariff'''</u><br/>
 
The system is supposed to offer incentives to install 2 500 MW of additional capacity. It is addressed to small and medium size projects up to 50 MW. The tariff will be probably set for 15 years, taking into consideration wind speed and installed capacity. The system is still under elaboration.<br/>
 
[[Egypt Energy Situation#Overview|►Go to Top]]<br/>
 
<br/>
 
<br/>
 
 
=== Clean Development Mechanism (<span data-scayt_word="cdm" data-scaytid="175">CDM</span>)<br/> ===
 
=== Clean Development Mechanism (<span data-scayt_word="cdm" data-scaytid="175">CDM</span>)<br/> ===
Egypt’s Designated National Authority (DNA) was established in 2005, serving as the contact point for all <span data-scayt_word="cdm-related" data-scaytid="177">CDM-related</span> matters. Organizationally, it is part of the Egyptian Environmental Affairs Agency (<span data-scayt_word="eeaa" data-scaytid="178">EEAA</span>).<br/>
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Egypt’s Designated National Authority (DNA) was established in 2005, serving as the contact point for all <span data-scayt_word="cdm-related" data-scaytid="177">CDM-related</span> matters. Organizationally, it is part of the Egyptian Environmental Affairs Agency (<span data-scayt_word="eeaa" data-scaytid="178">EEAA</span>).<br/><u>Egypt’s current climate change mitigation policies, plans and measures relevant to <span data-scayt_word="cdm" data-scaytid="176">CDM</span> are contained in:</u><br/>1. The National Environmental Action Plan (2002 – 2017).<br/>2. Egypt’s Climate Change National Action Plan (<span data-scayt_word="eccnap" data-scaytid="180">ECCNAP</span>).<br/>3. Egypt’s National Strategy Study Program on <span data-scayt_word="cdm" data-scaytid="179">CDM</span>.<br/>4. Egypt’s National Energy Efficiency Strategy (<span data-scayt_word="nees" data-scaytid="183">NEES</span>)<br/><br/>Currently, four <span data-scayt_word="cdm" data-scaytid="182">CDM</span> projects are registered. Minor corrections have been requested for one project. In April 2009, 18 projects were in the DNA pipeline, of which nine were renewable energy<br/>projects. The <span data-scayt_word="cdm" data-scaytid="185">CDM</span> potential in Egypt has been estimated at 69.75 Mt <span data-scayt_word="co2eq" data-scaytid="188">CO2eq</span>, of which around 21 % is in the renewable energy sector.27 As shown in table 10, the total annual savings of the registered RE projects amounts to 0.62 Mt <span data-scayt_word="co2eq" data-scaytid="189">CO2eq</span>. This represents 5 % of the existing potential<br/>in the renewable energy sector and around 1 % of the whole potential.<ref name="Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH, Energy-policy Framework Conditions for Electricity Markets and RenewablefckLREnergies: 16 Country Analyses, Eschborn 2009, page 186.">Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH, Energy-policy Framework Conditions for Electricity Markets and RenewablefckLREnergies: 16 Country Analyses, Eschborn 2009, page 186.</ref><br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
<u>Egypt’s current climate change mitigation policies, plans and measures relevant to <span data-scayt_word="cdm" data-scaytid="176">CDM</span> are contained in:</u><br/>
 
1. The National Environmental Action Plan (2002 – 2017).<br/>2. Egypt’s Climate Change National Action Plan (<span data-scayt_word="eccnap" data-scaytid="180">ECCNAP</span>).<br/>3. Egypt’s National Strategy Study Program on <span data-scayt_word="cdm" data-scaytid="179">CDM</span>.<br/>4. Egypt’s National Energy Efficiency Strategy (<span data-scayt_word="nees" data-scaytid="183">NEES</span>)<br/>
 
<br/>Currently, four <span data-scayt_word="cdm" data-scaytid="182">CDM</span> projects are registered. Minor corrections have been requested for one project. In April 2009, 18 projects were in the DNA pipeline, of which nine were renewable energy<br/>projects. The <span data-scayt_word="cdm" data-scaytid="185">CDM</span> potential in Egypt has been estimated at 69.75 Mt <span data-scayt_word="co2eq" data-scaytid="188">CO2eq</span>, of which around 21 % is in the renewable energy sector.27 As shown in table 10, the total annual savings of the registered RE projects amounts to 0.62 Mt <span data-scayt_word="co2eq" data-scaytid="189">CO2eq</span>. This represents 5 % of the existing potential<br/>in the renewable energy sector and around 1 % of the whole potential.<ref name="Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH, Energy-policy Framework Conditions for Electricity Markets and RenewablefckLREnergies: 16 Country Analyses, Eschborn 2009, page 186.">Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH, Energy-policy Framework Conditions for Electricity Markets and RenewablefckLREnergies: 16 Country Analyses, Eschborn 2009, page 186.</ref><br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
<br/>
 
 
== Important Laws and Regulations<br/> ==
 
== Important Laws and Regulations<br/> ==
The most important instrument to implement the energy strategy is the New Electricity Law, which is currently in the process of ratification by the People’s Assembly. The new law will<ref name="JCEE 2009; Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.">JCEE 2009; Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.</ref>:<br/>
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The most important instrument to implement the energy strategy is the New Electricity Law, which is currently in the process of ratification by the People’s Assembly. The new law will<ref name="JCEE 2009; Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.">JCEE 2009; Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.</ref>:<br/><br/><br/>
<br/>
 
<br/>
 
 
*Establish a liberalized electricity market with various market participants, regulated by <span data-scayt_word="eeucpra" data-scaytid="191">EEUCPRA</span>
 
*Establish a liberalized electricity market with various market participants, regulated by <span data-scayt_word="eeucpra" data-scaytid="191">EEUCPRA</span>
 
*Improve the conditions for renewable energy, <span data-scayt_word="cogeneration" data-scaytid="193">cogeneration</span> and demand side management in the electricity sector
 
*Improve the conditions for renewable energy, <span data-scayt_word="cogeneration" data-scaytid="193">cogeneration</span> and demand side management in the electricity sector
 
*Provide some rules for electricity consumption and includes measures to encourage renewable energy electricity production.
 
*Provide some rules for electricity consumption and includes measures to encourage renewable energy electricity production.
With regard to renewable energy electricity generation, the law foresees that the private sector builds, owns and operates the projects and sells the '''electricity to the transmission company (<span data-scayt_word="eetc" data-scaytid="197">EETC</span>)''' under long term Power Purchase Agreements (<span data-scayt_word="ppa" data-scaytid="200">PPA</span>). Non-renewable energy based '''[[Independent Power Producers (IPPs)|Independent Power Producers (IPPs)]]''' conclude bilateral purchase agreements with eligible consumers.<br/>
+
With regard to renewable energy electricity generation, the law foresees that the private sector builds, owns and operates the projects and sells the '''electricity to the transmission company (<span data-scayt_word="eetc" data-scaytid="197">EETC</span>)''' under long term Power Purchase Agreements (<span data-scayt_word="ppa" data-scaytid="200">PPA</span>). Non-renewable energy based '''[[Independent Power Producers (IPPs)|Independent Power Producers (IPPs)]]''' conclude bilateral purchase agreements with eligible consumers.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
<br/>
 
 
== Liberalization<br/> ==
 
== Liberalization<br/> ==
Article 7 of Law No. 100 dating from 1996 stipulates that local and international investors can obtain concessions for building and operating electricity plants. A new investment law enacted in 1997<ref name="Spohn, Hans-Dieter et al. 2009: Egypt – Business Guide (http://www.ghorfa.de/pdf/BusinessGuide_Aegypten.pdf ) Retrieved on 16th October 2009">Spohn, Hans-Dieter et al. 2009: Egypt – Business Guide (http://www.ghorfa.de/pdf/BusinessGuide_Aegypten.pdf ) Retrieved on 16th October 2009</ref> includes various incentive mechanisms such as state guarantees for investors. At the time of contract negotiations concerning the supply of electricity from privately built power plants in the late <span data-scayt_word="1990s" data-scaytid="217">1990s</span>, an initial public offering of stock in all seven of Egypt’s state-owned monopolistic electricity providers was in preparation for the Egyptian stock exchange. However, due to lack of interest among investors, the plan was never implemented. The last significant step of reform took place in 2000, when the Egyptian Electricity Authority was restructured to become the Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="212">EEHC</span>). That conversion is regarded as a step towards a more entrepreneurial approach because, for example, <span data-scayt_word="eehc" data-scaytid="213">EEHC</span> is expected to finance future projects from its own budget without governmental intervention. The conversion also included the break-up of formerly vertically integrated utility companies into individual enterprises each of which is now an independent company with its own, autonomous management and separate accounting. <span data-scayt_word="eehc" data-scaytid="214">EEHC</span> was created as a new approach to the privatization of its subsidiaries, but no part of any state-owned enterprise has been privatized by now. Via <span data-scayt_word="eehc" data-scaytid="215">EEHC</span>, the Egyptian government still controls 90 % of all electricity production and is maintaining its monopoly on transmission and distribution. Until today three privately operated power plants with foreign investors have been built according to the build-own-operate (BOO) principle (<span data-scayt_word="sidi" data-scaytid="216">Sidi</span> <span data-scayt_word="krir" data-scaytid="223">Krir</span>, Suez and Port Said), representing approximately 10 % (2 049 MW) of the current installed generating capacity.<br/>
+
Article 7 of Law No. 100 dating from 1996 stipulates that local and international investors can obtain concessions for building and operating electricity plants. A new investment law enacted in 1997<ref name="Spohn, Hans-Dieter et al. 2009: Egypt – Business Guide (http://www.ghorfa.de/pdf/BusinessGuide_Aegypten.pdf ) Retrieved on 16th October 2009">Spohn, Hans-Dieter et al. 2009: Egypt – Business Guide (http://www.ghorfa.de/pdf/BusinessGuide_Aegypten.pdf ) Retrieved on 16th October 2009</ref> includes various incentive mechanisms such as state guarantees for investors. At the time of contract negotiations concerning the supply of electricity from privately built power plants in the late <span data-scayt_word="1990s" data-scaytid="217">1990s</span>, an initial public offering of stock in all seven of Egypt’s state-owned monopolistic electricity providers was in preparation for the Egyptian stock exchange. However, due to lack of interest among investors, the plan was never implemented. The last significant step of reform took place in 2000, when the Egyptian Electricity Authority was restructured to become the Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="212">EEHC</span>). That conversion is regarded as a step towards a more entrepreneurial approach because, for example, <span data-scayt_word="eehc" data-scaytid="213">EEHC</span> is expected to finance future projects from its own budget without governmental intervention. The conversion also included the break-up of formerly vertically integrated utility companies into individual enterprises each of which is now an independent company with its own, autonomous management and separate accounting. <span data-scayt_word="eehc" data-scaytid="214">EEHC</span> was created as a new approach to the privatization of its subsidiaries, but no part of any state-owned enterprise has been privatized by now. Via <span data-scayt_word="eehc" data-scaytid="215">EEHC</span>, the Egyptian government still controls 90 % of all electricity production and is maintaining its monopoly on transmission and distribution. Until today three privately operated power plants with foreign investors have been built according to the build-own-operate (BOO) principle (<span data-scayt_word="sidi" data-scaytid="216">Sidi</span> <span data-scayt_word="krir" data-scaytid="223">Krir</span>, Suez and Port Said), representing approximately 10 % (2 049 MW) of the current installed generating capacity.<br/><br/>Within the context of the new energy strategy and the ambitious renewable energy targets, recently, there has been some effort to create a more competitive electricity market in order to attract investors from the private<br/>sector. The draft of the new Electricity Law, which is currently in the process of ratification by the People’s Assembly, is supposed to establish a <span data-scayt_word="liberalised" data-scaytid="226">liberalised</span> electricity market, regulated by the Egyptian Electric Utility and Consumer Protection Regulatory Agency <span data-scayt_word="eeucpra" data-scaytid="224">EEUCPRA</span>. Article 20 – 22 of the draft law addresses the replacement of the current Single Buyer Model and allows for third party access to the electricity grid. The access to the electricity grids will be based on published tariffs and <span data-scayt_word="longterm" data-scaytid="228">longterm</span> electricity purchase agreements. Moreover, the government states that it plans to remove all energy subsidies by 2017. [[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
<br/>
 
Within the context of the new energy strategy and the ambitious renewable energy targets, recently, there has been some effort to create a more competitive electricity market in order to attract investors from the private<br/>sector. The draft of the new Electricity Law, which is currently in the process of ratification by the People’s Assembly, is supposed to establish a <span data-scayt_word="liberalised" data-scaytid="226">liberalised</span> electricity market, regulated by the Egyptian Electric Utility and Consumer Protection Regulatory Agency <span data-scayt_word="eeucpra" data-scaytid="224">EEUCPRA</span>. Article 20 – 22 of the draft law addresses the replacement of the current Single Buyer Model and allows for third party access to the electricity grid. The access to the electricity grids will be based on published tariffs and <span data-scayt_word="longterm" data-scaytid="228">longterm</span> electricity purchase agreements. Moreover, the government states that it plans to remove all energy subsidies by 2017.
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
<br/>
 
 
= Institutional Set-up in the Energy Sector<br/> =
 
= Institutional Set-up in the Energy Sector<br/> =
  
 
== Egyptian Ministry of Electricity and Energy ==
 
== Egyptian Ministry of Electricity and Energy ==
The first Ministry for Electricity and Energy was established in 1964. The Ministry supervises the Egyptian Electricity Holding Company as well as the '''New and Renewable Energy Agency (<span data-scayt_word="nrea" data-scaytid="230">NREA</span>)''' and the '''Rural Electrification Authority (REA)'''. Next to supervising all activities related to energy projects, it suggests electricity prices and publishes data and statistics relating to electricity production.
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The first Ministry for Electricity and Energy was established in 1964. The Ministry supervises the Egyptian Electricity Holding Company as well as the '''New and Renewable Energy Agency (<span data-scayt_word="nrea" data-scaytid="230">NREA</span>)''' and the '''Rural Electrification Authority (REA)'''. Next to supervising all activities related to energy projects, it suggests electricity prices and publishes data and statistics relating to electricity production. [[Egypt Energy Situation#toc|►Go to Top]]<br/><br/><br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== Regulatory Authority <span data-scayt_word="eeucpra" data-scaytid="233">EEUCPRA</span><br/> ==
 
== Regulatory Authority <span data-scayt_word="eeucpra" data-scaytid="233">EEUCPRA</span><br/> ==
The '''Egyptian Electric Utility and Consumer Protection Regulatory Agency (<span data-scayt_word="eeucpra" data-scaytid="234">EEUCPRA</span>)''' was established by decree in 1997 (Decree no. 326 of 1997: »Establishing the electric utility and consumer protection regulatory agency«).The regulatory authority is located in Cairo and came into formal existence in 1998.<br/>
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The '''Egyptian Electric Utility and Consumer Protection Regulatory Agency (<span data-scayt_word="eeucpra" data-scaytid="234">EEUCPRA</span>)''' was established by decree in 1997 (Decree no. 326 of 1997: »Establishing the electric utility and consumer protection regulatory agency«).The regulatory authority is located in Cairo and came into formal existence in 1998.<br/><br/>The primary task of the regulatory authority is to balance the interests of electricity producers, electricity providers and end users. It is supposed to ensure a reliable <span data-scayt_word="longterm" data-scaytid="235">longterm</span> supply of electricity while promoting and supervising environmental protection and operational reliability in the energy sector. It is also responsible for licensing the construction and operation of electricity generation, transmission and distribution facilities as well as for electricity trading. One of the authority’s declared objectives is to create an enabling environment for market-based competition within the framework of existing laws and to prevent the formation of commercial monopolies in the energy sector. <span data-scayt_word="eeucpra's" data-scaytid="238">EEUCPRA's</span> Board of Directors is nominated by the Ministry of Electricity and Energy.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
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The primary task of the regulatory authority is to balance the interests of electricity producers, electricity providers and end users. It is supposed to ensure a reliable <span data-scayt_word="longterm" data-scaytid="235">longterm</span> supply of electricity while promoting and supervising environmental protection and operational reliability in the energy sector. It is also responsible for licensing the construction and operation of electricity generation, transmission and distribution facilities as well as for electricity trading. One of the authority’s declared objectives is to create an enabling environment for market-based competition within the framework of existing laws and to prevent the formation of commercial monopolies in the energy sector. <span data-scayt_word="eeucpra's" data-scaytid="238">EEUCPRA's</span> Board of Directors is nominated by the Ministry of Electricity and Energy.<br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== New and Renewable Energy Authority (<span data-scayt_word="nrea" data-scaytid="240">NREA</span>)<br/> ==
 
== New and Renewable Energy Authority (<span data-scayt_word="nrea" data-scaytid="240">NREA</span>)<br/> ==
The Ministry of Electricity and Energy established the <span data-scayt_word="nrea" data-scaytid="241">NREA</span> in 1986 for the purpose of bundling activities aiming to promote both renewable sources of energy and energy efficiency. <span data-scayt_word="nrea" data-scaytid="242">NREA</span> is the operator of all wind power installations in Egypt, including the demonstration projects in <span data-scayt_word="matrouh" data-scaytid="243">Matrouh</span> administrative district (hybrid wind/diesel system) and <span data-scayt_word="hurghada" data-scaytid="244">Hurghada</span> (5.5 MW wind farm), as well as the grid connected <span data-scayt_word="zafarana" data-scaytid="250">Zafarana</span> wind farms on the Gulf of Suez (reaching 425 MW by mid 2009 and still expanding).<br/>
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The Ministry of Electricity and Energy established the <span data-scayt_word="nrea" data-scaytid="241">NREA</span> in 1986 for the purpose of bundling activities aiming to promote both renewable sources of energy and energy efficiency. <span data-scayt_word="nrea" data-scaytid="242">NREA</span> is the operator of all wind power installations in Egypt, including the demonstration projects in <span data-scayt_word="matrouh" data-scaytid="243">Matrouh</span> administrative district (hybrid wind/diesel system) and <span data-scayt_word="hurghada" data-scaytid="244">Hurghada</span> (5.5 MW wind farm), as well as the grid connected <span data-scayt_word="zafarana" data-scaytid="250">Zafarana</span> wind farms on the Gulf of Suez (reaching 425 MW by mid 2009 and still expanding).<br/><br/>With the new general orientation towards private sector involvement, <span data-scayt_word="nrea" data-scaytid="252">NREA</span> also engages in supporting private investment in wind energy by providing resource assessment, the necessary data for feasibility studies and technical support for potential project developers, and by being the partner in land use agreements.<br/><br/>Moreover, the <span data-scayt_word="nrea" data-scaytid="256">NREA</span> has a central laboratory for testing and certifying apparatus and equipment for utilizing renewable energy resources. Finally, the <span data-scayt_word="nrea" data-scaytid="257">NREA</span> offers training and upgrading courses, <span data-scayt_word="organises" data-scaytid="260">organises</span> workshops and conducts studies – both on its own and in cooperation with international partner <span data-scayt_word="organisations" data-scaytid="261">organisations</span>.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
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With the new general orientation towards private sector involvement, <span data-scayt_word="nrea" data-scaytid="252">NREA</span> also engages in supporting private investment in wind energy by providing resource assessment, the necessary data for feasibility studies and technical support for potential project developers, and by being the partner in land use agreements.<br/>
 
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Moreover, the <span data-scayt_word="nrea" data-scaytid="256">NREA</span> has a central laboratory for testing and certifying apparatus and equipment for utilizing renewable energy resources. Finally, the <span data-scayt_word="nrea" data-scaytid="257">NREA</span> offers training and upgrading courses, <span data-scayt_word="organises" data-scaytid="260">organises</span> workshops and conducts studies – both on its own and in cooperation with international partner <span data-scayt_word="organisations" data-scaytid="261">organisations</span>.<br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== Egyptian Environmental Affairs Agency (<span data-scayt_word="eeaa" data-scaytid="265">EEAA</span>)<br/> ==
 
== Egyptian Environmental Affairs Agency (<span data-scayt_word="eeaa" data-scaytid="265">EEAA</span>)<br/> ==
The <span data-scayt_word="eeaa" data-scaytid="266">EEAA</span> was initially established in 1982 and restructured in 1994, according to Law 4/1994. The <span data-scayt_word="eeaa" data-scaytid="267">EEAA</span> serves as the executive arm of the Ministry of State for Environmental Affairs (<span data-scayt_word="msea" data-scaytid="272">MSEA</span>). Its administrative council is composed of the Minister of Environmental Affairs, the Chief Executive Officer of the Agency and representatives from relevant ministries, '''Non-Governmental <span data-scayt_word="organisations" data-scaytid="273">Organisations</span> (NGOs)''', the public business sector, universities and research <span data-scayt_word="centres" data-scaytid="276">centres</span>. The Agency’s activities are financed by the '''Environmental Protection Fund (<span data-scayt_word="epf" data-scaytid="277">EPF</span>)''', which is funded by donations and grants by national and foreign organizations, as well as fines and compensation awarded by courts of law. Principal functions of the agency include the formulation of environmental policies, the development and monitoring of projects and the implementation of pilot projects. The agency is further the national authority in charge of promoting environmental topics between Egypt and third parties.<br/>
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The <span data-scayt_word="eeaa" data-scaytid="266">EEAA</span> was initially established in 1982 and restructured in 1994, according to Law 4/1994. The <span data-scayt_word="eeaa" data-scaytid="267">EEAA</span> serves as the executive arm of the Ministry of State for Environmental Affairs (<span data-scayt_word="msea" data-scaytid="272">MSEA</span>). Its administrative council is composed of the Minister of Environmental Affairs, the Chief Executive Officer of the Agency and representatives from relevant ministries, '''Non-Governmental <span data-scayt_word="organisations" data-scaytid="273">Organisations</span> (NGOs)''', the public business sector, universities and research <span data-scayt_word="centres" data-scaytid="276">centres</span>. The Agency’s activities are financed by the '''Environmental Protection Fund (<span data-scayt_word="epf" data-scaytid="277">EPF</span>)''', which is funded by donations and grants by national and foreign organizations, as well as fines and compensation awarded by courts of law. Principal functions of the agency include the formulation of environmental policies, the development and monitoring of projects and the implementation of pilot projects. The agency is further the national authority in charge of promoting environmental topics between Egypt and third parties.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
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== Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="284">EEHC</span>) ==
 
== Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="284">EEHC</span>) ==
The government-owned and operated '''Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="285">EEHC</span>)''' coordinates, supervises and monitors the activities of its 16 (+1 - Includes <span data-scayt_word="nrea" data-scaytid="289">NREA</span> –actually a research institute – also presents itself as the operator of the <span data-scayt_word="zaafarana" data-scaytid="295">Zaafarana</span> wind farm-therefore included as a electricity production company) affiliated companies in the field of production, transmission and distribution of electric energy. The <span data-scayt_word="eech" data-scaytid="296">EECH</span> subsidiary <span data-scayt_word="eetc" data-scaytid="290">EETC</span> is responsible for the countrywide transmission of electricity to regional and local distributors. Next to the <span data-scayt_word="eetc" data-scaytid="291">EETC</span>, there are six generating and nine distribution companies. The <span data-scayt_word="eehc" data-scaytid="292">EEHC</span> is supervised by the Egyptian '''Ministry of Electricity and Energy (<span data-scayt_word="mee" data-scaytid="293">MEE</span>)'''.<br/>
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The government-owned and operated '''Egyptian Electricity Holding Company (<span data-scayt_word="eehc" data-scaytid="285">EEHC</span>)''' coordinates, supervises and monitors the activities of its 16 (+1 - Includes <span data-scayt_word="nrea" data-scaytid="289">NREA</span> –actually a research institute – also presents itself as the operator of the <span data-scayt_word="zaafarana" data-scaytid="295">Zaafarana</span> wind farm-therefore included as a electricity production company) affiliated companies in the field of production, transmission and distribution of electric energy. The <span data-scayt_word="eech" data-scaytid="296">EECH</span> subsidiary <span data-scayt_word="eetc" data-scaytid="290">EETC</span> is responsible for the countrywide transmission of electricity to regional and local distributors. Next to the <span data-scayt_word="eetc" data-scaytid="291">EETC</span>, there are six generating and nine distribution companies. The <span data-scayt_word="eehc" data-scaytid="292">EEHC</span> is supervised by the Egyptian '''Ministry of Electricity and Energy (<span data-scayt_word="mee" data-scaytid="293">MEE</span>)'''.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== Egyptian Wind Energy Association (<span data-scayt_word="egwea" data-scaytid="305">EGWEA</span>)<br/> ==
 
== Egyptian Wind Energy Association (<span data-scayt_word="egwea" data-scaytid="305">EGWEA</span>)<br/> ==
The <span data-scayt_word="egwea" data-scaytid="306">EGWEA</span> is the umbrella <span data-scayt_word="organisation" data-scaytid="308">organisation</span>, representing the wind energy sector in Egypt. It assists interaction and co-operation between all relevant players with professional involvement in the field of wind energy. The <span data-scayt_word="egwea" data-scaytid="307">EGWEA</span> is <span data-scayt_word="organised" data-scaytid="309">organised</span> in a global network of wind associations. It aims at promoting and supporting the development of wind energy in Egypt by providing the means to facilitate the exchange of technical information, expertise and experience in the wind energy sector. It conducts studies, provides information on tenders and conferences and <span data-scayt_word="organises" data-scaytid="303">organises</span> workshops for interested parties. <span data-scayt_word="iegwea" data-scaytid="311">IEGWEA</span> is particularly interested in bringing forward wind energy interests of Egypt. However, the association is also engaged in the promotion of wind energy in developing countries in general.<br/>
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The <span data-scayt_word="egwea" data-scaytid="306">EGWEA</span> is the umbrella <span data-scayt_word="organisation" data-scaytid="308">organisation</span>, representing the wind energy sector in Egypt. It assists interaction and co-operation between all relevant players with professional involvement in the field of wind energy. The <span data-scayt_word="egwea" data-scaytid="307">EGWEA</span> is <span data-scayt_word="organised" data-scaytid="309">organised</span> in a global network of wind associations. It aims at promoting and supporting the development of wind energy in Egypt by providing the means to facilitate the exchange of technical information, expertise and experience in the wind energy sector. It conducts studies, provides information on tenders and conferences and <span data-scayt_word="organises" data-scaytid="303">organises</span> workshops for interested parties. <span data-scayt_word="iegwea" data-scaytid="311">IEGWEA</span> is particularly interested in bringing forward wind energy interests of Egypt. However, the association is also engaged in the promotion of wind energy in developing countries in general.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/>
[[Egypt Energy Situation#toc|►Go to Top]]
 
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== International Donor Activities<br/> ==
 
== International Donor Activities<br/> ==
Egypt is one of the priority partner countries of the German development assistance. In the last 50 years, Egypt has received approximately 5.5 billion € development aid. The current focus areas of the bilateral cooperation are water management, renewable energies (wind, solar and<br/>hydro power), energy efficiency and climate protection.<ref name="KfW. Landesinformation Ägypten. (http://www.kfwentwicklungsbank.de)Retrieved on 8th September 2009.">KfW. Landesinformation Ägypten. (http://www.kfwentwicklungsbank.de)Retrieved on 8th September 2009.</ref> <u>Within the framework of the German development cooperation, two initiatives to promote renewable energies and energy efficiency were launched in 2008:</u><br/>
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Egypt is one of the priority partner countries of the German development assistance. In the last 50 years, Egypt has received approximately 5.5 billion € development aid. The current focus areas of the bilateral cooperation are water management, renewable energies (wind, solar and<br/>hydro power), energy efficiency and climate protection.<ref name="KfW. Landesinformation Ägypten. (http://www.kfwentwicklungsbank.de)Retrieved on 8th September 2009.">KfW. Landesinformation Ägypten. (http://www.kfwentwicklungsbank.de)Retrieved on 8th September 2009.</ref> <u>Within the framework of the German development cooperation, two initiatives to promote renewable energies and energy efficiency were launched in 2008:</u><br/><br/><br/>
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*The Regional Center for Renewable Energy and Energy Efficiency (<span data-scayt_word="rcreee" data-scaytid="317">RCREEE</span>), based in Cairo. Key development partners in setting up <span data-scayt_word="rcreee" data-scaytid="318">RCREEE</span> are Egypt, Germany, Denmark and the EU Commission. Besides Egypt, other Arab members of the <span data-scayt_word="rcreee" data-scaytid="319">RCREEE</span> are Algeria, Jordan, Lebanon, Libya, Morocco, the Palestinian National Authority, Syria, Tunisia and Yemen. <span data-scayt_word="rcreee" data-scaytid="320">RCREEE</span> formulates and disseminates policies in support of RE and EE in the region and provides a platform for the regional exchange on policy issues and technological questions. In addition, <span data-scayt_word="rcreee" data-scaytid="321">RCREEE</span> encourages the participation of the private sector to promote the establishment of a regional RE and EE industry. The German development cooperation provides assistance for the establishment of the Center and the formulation of the initial work program by <span data-scayt_word="gtz" data-scaytid="322">GTZ</span>.<ref name="RCREEE 2009. -Regional Center for Renewable Energy and Energy. (http://www.rcreee.org/about.asp) Retrieved on 8th September 2009.">RCREEE 2009. -Regional Center for Renewable Energy and Energy. (http://www.rcreee.org/about.asp) Retrieved on 8th September 2009.</ref><br/>
 
*The Regional Center for Renewable Energy and Energy Efficiency (<span data-scayt_word="rcreee" data-scaytid="317">RCREEE</span>), based in Cairo. Key development partners in setting up <span data-scayt_word="rcreee" data-scaytid="318">RCREEE</span> are Egypt, Germany, Denmark and the EU Commission. Besides Egypt, other Arab members of the <span data-scayt_word="rcreee" data-scaytid="319">RCREEE</span> are Algeria, Jordan, Lebanon, Libya, Morocco, the Palestinian National Authority, Syria, Tunisia and Yemen. <span data-scayt_word="rcreee" data-scaytid="320">RCREEE</span> formulates and disseminates policies in support of RE and EE in the region and provides a platform for the regional exchange on policy issues and technological questions. In addition, <span data-scayt_word="rcreee" data-scaytid="321">RCREEE</span> encourages the participation of the private sector to promote the establishment of a regional RE and EE industry. The German development cooperation provides assistance for the establishment of the Center and the formulation of the initial work program by <span data-scayt_word="gtz" data-scaytid="322">GTZ</span>.<ref name="RCREEE 2009. -Regional Center for Renewable Energy and Energy. (http://www.rcreee.org/about.asp) Retrieved on 8th September 2009.">RCREEE 2009. -Regional Center for Renewable Energy and Energy. (http://www.rcreee.org/about.asp) Retrieved on 8th September 2009.</ref><br/>
 
*The Egyptian-German High Level Committee on Renewable Energy, Energy Efficiency and Environmental Protection <span data-scayt_word="jcee" data-scaytid="324">JCEE</span>, is a bilateral Egyptian-German initiative. The <span data-scayt_word="jcee" data-scaytid="325">JCEE</span> is a platform for energy policy discussion, for developing initiatives for investment as well as institutional projects, awareness and capacity building activities and establishing contacts and exchange between the two countries. The project is financed by the Egyptian Ministry of Electricity and Energy and the German Federal Ministry of Economic Cooperation and Development (<span data-scayt_word="bmz" data-scaytid="326">BMZ</span>). The implementing partners of the cooperation are <span data-scayt_word="nrea" data-scaytid="316">NREA</span> and <span data-scayt_word="gtz" data-scaytid="323">GTZ</span>.<br/>
 
*The Egyptian-German High Level Committee on Renewable Energy, Energy Efficiency and Environmental Protection <span data-scayt_word="jcee" data-scaytid="324">JCEE</span>, is a bilateral Egyptian-German initiative. The <span data-scayt_word="jcee" data-scaytid="325">JCEE</span> is a platform for energy policy discussion, for developing initiatives for investment as well as institutional projects, awareness and capacity building activities and establishing contacts and exchange between the two countries. The project is financed by the Egyptian Ministry of Electricity and Energy and the German Federal Ministry of Economic Cooperation and Development (<span data-scayt_word="bmz" data-scaytid="326">BMZ</span>). The implementing partners of the cooperation are <span data-scayt_word="nrea" data-scaytid="316">NREA</span> and <span data-scayt_word="gtz" data-scaytid="323">GTZ</span>.<br/>
In addition, financial assistance is provided by the German <span data-scayt_word="kreditanstalt" data-scaytid="330">Kreditanstalt</span> <span data-scayt_word="für" data-scaytid="331">für</span> <span data-scayt_word="wiederaufbau" data-scaytid="332">Wiederaufbau</span> (<span data-scayt_word="kfw" data-scaytid="333">KfW</span>). <span data-scayt_word="kf" data-scaytid="334">Kf</span> W provided a reduced interest loan to rehabilitate the hydro electricity plants at Aswan and additional loans for the construction of medium sized hydro electricity projects at the Nile River. In the wind energy sector, <span data-scayt_word="kf" data-scaytid="335">Kf</span> W provided loans to finance an important part of the wind farm in <span data-scayt_word="zafarana" data-scaytid="328">Zafarana</span> and is supporting a new wind farm in <span data-scayt_word="gabal" data-scaytid="329">Gabal</span> El <span data-scayt_word="zeit" data-scaytid="338">Zeit</span> through loans jointly with the European Investment Bank.<br/>
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In addition, financial assistance is provided by the German <span data-scayt_word="kreditanstalt" data-scaytid="330">Kreditanstalt</span> <span data-scayt_word="für" data-scaytid="331">für</span> <span data-scayt_word="wiederaufbau" data-scaytid="332">Wiederaufbau</span> (<span data-scayt_word="kfw" data-scaytid="333">KfW</span>). <span data-scayt_word="kf" data-scaytid="334">Kf</span> W provided a reduced interest loan to rehabilitate the hydro electricity plants at Aswan and additional loans for the construction of medium sized hydro electricity projects at the Nile River. In the wind energy sector, <span data-scayt_word="kf" data-scaytid="335">Kf</span> W provided loans to finance an important part of the wind farm in <span data-scayt_word="zafarana" data-scaytid="328">Zafarana</span> and is supporting a new wind farm in <span data-scayt_word="gabal" data-scaytid="329">Gabal</span> El <span data-scayt_word="zeit" data-scaytid="338">Zeit</span> through loans jointly with the European Investment Bank.<br/><br/>Apart from Germany, Denmark, Japan, Spain and Italy are the most important partners providing assistance for developing renewable energies.<br/><br/>At European level, a Memorandum of Understanding to enhance EU-Egypt energy cooperation was signed in December 2008. The priority areas covered are, among others, the development of the Egyptian energy strategy, including the market reform, the convergence of Egypt’s energy market with that of the EU, the promotion of renewable energy and energy efficiency, the development of energy grids as well as technological and industrial cooperation.<br/>These include the World Bank, the UN <span data-scayt_word="organisations" data-scaytid="344">organisations</span> <span data-scayt_word="undp" data-scaytid="348">UNDP</span>, <span data-scayt_word="unido" data-scaytid="349">UNIDO</span> and <span data-scayt_word="unep" data-scaytid="345">UNEP</span> as well as the African Development Bank. For instance, Egypt is one of the first countries to present a portfolio within the framework of the Clean Technology Fund established by the World Bank in 2008 to finance RE and EE projects. Egypt plans to use $300 million in concessional financing from the fund, blended with financing from the World Bank Group, the African Development Bank, bilateral development agencies, private sector and other sources to spur wind power development and introduce clean transport options. The projects include a transmission grid extension for transporting electricity from Gulf of Suez-based wind farms.<ref name="World Bank 2009. Egypt: Renewable Energy and Clean Transport Are Cornerstones of Low Carbon Growth. In: News and broadcast. June 5, 2009. (http://bit.ly/VllxVl) Retrieved on 10th September 2009.">World Bank 2009. Egypt: Renewable Energy and Clean Transport Are Cornerstones of Low Carbon Growth. In: News and broadcast. June 5, 2009. (http://bit.ly/VllxVl) Retrieved on 10th September 2009.</ref><br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/>
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Apart from Germany, Denmark, Japan, Spain and Italy are the most important partners providing assistance for developing renewable energies.<br/>
 
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At European level, a Memorandum of Understanding to enhance EU-Egypt energy cooperation was signed in December 2008. The priority areas covered are, among others, the development of the Egyptian energy strategy, including the market reform, the convergence of Egypt’s energy market with that of the EU, the promotion of renewable energy and energy efficiency, the development of energy grids as well as technological and industrial cooperation.
 
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These include the World Bank, the UN <span data-scayt_word="organisations" data-scaytid="344">organisations</span> <span data-scayt_word="undp" data-scaytid="348">UNDP</span>, <span data-scayt_word="unido" data-scaytid="349">UNIDO</span> and <span data-scayt_word="unep" data-scaytid="345">UNEP</span> as well as the African Development Bank. For instance, Egypt is one of the first countries to present a portfolio within the framework of the Clean Technology Fund established by the World Bank in 2008 to finance RE and EE projects. Egypt plans to use $300 million in concessional financing from the fund, blended with financing from the World Bank Group, the African Development Bank, bilateral development agencies, private sector and other sources to spur wind power development and introduce clean transport options. The projects include a transmission grid extension for transporting electricity from Gulf of Suez-based wind farms.<ref name="World Bank 2009. Egypt: Renewable Energy and Clean Transport Are Cornerstones of Low Carbon Growth. In: News and broadcast. June 5, 2009. (http://bit.ly/VllxVl) Retrieved on 10th September 2009.">World Bank 2009. Egypt: Renewable Energy and Clean Transport Are Cornerstones of Low Carbon Growth. In: News and broadcast. June 5, 2009. (http://bit.ly/VllxVl) Retrieved on 10th September 2009.</ref><br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
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= Existing Projects =
 
= Existing Projects =
  
 
== Wind Energy Projects<br/> ==
 
== Wind Energy Projects<br/> ==
Egypt has passed the stage of initial resource assessment and demonstration projects (<span data-scayt_word="hurghada" data-scaytid="353">Hurghada</span> wind farm) towards the planning and implementation of large scale grid connected projects (<span data-scayt_word="zafarana" data-scaytid="354">Zafarana</span> and Gulf of El <span data-scayt_word="zayt" data-scaytid="358">Zayt</span>). A series of large-scale wind energy projects have been built in Egypt, resulting in a total installed wind capacity of 390 MW at the end of 2008.
+
Egypt has passed the stage of initial resource assessment and demonstration projects (<span data-scayt_word="hurghada" data-scaytid="353">Hurghada</span> wind farm) towards the planning and implementation of large scale grid connected projects (<span data-scayt_word="zafarana" data-scaytid="354">Zafarana</span> and Gulf of El <span data-scayt_word="zayt" data-scaytid="358">Zayt</span>). A series of large-scale wind energy projects have been built in Egypt, resulting in a total installed wind capacity of 390 MW at the end of 2008.<br/>So far, large scale wind projects were established mainly at <span data-scayt_word="zafarana" data-scaytid="360">Zafarana</span>, with a total capacity of 360 MW by end of 2008. In cooperation with Germany, Denmark and Spain, the farm has been constructed and operated in stages since 2001. A partnership with Japan in 2008 added 55 MW. In the fiscal year 2007/2008, approximately 840 <span data-scayt_word="gwh" data-scaytid="362">GWh</span> of electricity were generated by the <span data-scayt_word="zafarana" data-scaytid="361">Zafarana</span> wind farm with an average capacity factor of 35.5 %, saving 466 000 tons of CO<sub>2</sub>.<br/><br/><span data-scayt_word="nrea" data-scaytid="367">NREA</span> has precise plans for wind farm development at the two sites <span data-scayt_word="zafarana" data-scaytid="368">Zafarana</span> and Gulf of <span data-scayt_word="el-zayt" data-scaytid="373">El-Zayt</span>. While at <span data-scayt_word="zafarana" data-scaytid="369">Zafarana</span> a capacity of 600 MW on 150 <span data-scayt_word="km2" data-scaytid="374">km<sup>2</sup></span> is planned, total capacity at <span data-scayt_word="el-zayt" data-scaytid="623">El-Zayt</span> will reach 720 MW on 200 km<sup>2</sup>. Between both areas, 1 300 <span data-scayt_word="km2" data-scaytid="624">km<sup>2</sup></span> have been designated to private investors, which are supposed to generate up to further 6 000 MW. Projections for <span data-scayt_word="zafarana" data-scaytid="625">Zafarana</span> between 2009 and 2010 include additional 75 MW in co-operation with Japan, and additional 120 MW in cooperation with Denmark. In total, <span data-scayt_word="zafarana" data-scaytid="626">Zafarana</span> will host 555 MW of grid connected wind power, rendering it the largest wind farm in Middle East and Africa.<br/>At the Gulf of El <span data-scayt_word="zayt" data-scaytid="385">Zayt</span>, various projects have been developed and will add up to 720 MW. 720 MW are expected in three stages: 200 MW in cooperation with Germany, 220 MW in cooperation with Japan, and 300 MW in cooperation with Spain. In addition, a number of private companies have expressed interest in developing large-scale wind projects at the Gulf of El <span data-scayt_word="zayt" data-scaytid="386">Zayt</span>. Among them, the Italian company <span data-scayt_word="italcementi" data-scaytid="389">Italcementi</span> signed a <span data-scayt_word="mou" data-scaytid="390">MoU</span> with the Egyptian government in 2006 to install 120 MW with the possibility for extension to up to 400 MW. The output is supposed to partly generate electricity for auto-consumption in the cement factories in the Suez area.<ref name="WEI 2009/2010. World Wind Association: Wind Energy International 2009/2010, World Wind Association, Bonn, 15.09.2009">WEI 2009/2010. World Wind Association: Wind Energy International 2009/2010, World Wind Association, Bonn, 15.09.2009</ref><br/>On 2 August 2009, authorities have approved the designation of 1.5 million acres of state-owned land, located on the east and west of the Nile River for the implementation of wind farms, which are supposed to contribute 30 000 MW.<ref name="MEES 2009. Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.">MEES 2009. Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.</ref> One-third of this land will be developed for wind energy production by <span data-scayt_word="nrea" data-scaytid="391">NREA</span> and multinational <span data-scayt_word="organisations" data-scaytid="392">organisations</span>, whereas two-thirds will be offered to the private sector by bid-procedure.<br/>[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
<br/>
 
So far, large scale wind projects were established mainly at <span data-scayt_word="zafarana" data-scaytid="360">Zafarana</span>, with a total capacity of 360 MW by end of 2008. In cooperation with Germany, Denmark and Spain, the farm has been constructed and operated in stages since 2001. A partnership with Japan in 2008 added 55 MW. In the fiscal year 2007/2008, approximately 840 <span data-scayt_word="gwh" data-scaytid="362">GWh</span> of electricity were generated by the <span data-scayt_word="zafarana" data-scaytid="361">Zafarana</span> wind farm with an average capacity factor of 35.5 %, saving 466 000 tons of CO<sub>2</sub>.<br/>
 
<br/>
 
<span data-scayt_word="nrea" data-scaytid="367">NREA</span> has precise plans for wind farm development at the two sites <span data-scayt_word="zafarana" data-scaytid="368">Zafarana</span> and Gulf of <span data-scayt_word="el-zayt" data-scaytid="373">El-Zayt</span>. While at <span data-scayt_word="zafarana" data-scaytid="369">Zafarana</span> a capacity of 600 MW on 150 <span data-scayt_word="km2" data-scaytid="374">km<sup>2</sup></span> is planned, total capacity at <span data-scayt_word="el-zayt" data-scaytid="623">El-Zayt</span> will reach 720 MW on 200 km<sup>2</sup>. Between both areas, 1 300 <span data-scayt_word="km2" data-scaytid="624">km<sup>2</sup></span> have been designated to private investors, which are supposed to generate up to further 6 000 MW. Projections for <span data-scayt_word="zafarana" data-scaytid="625">Zafarana</span> between 2009 and 2010 include additional 75 MW in co-operation with Japan, and additional 120 MW in cooperation with Denmark. In total, <span data-scayt_word="zafarana" data-scaytid="626">Zafarana</span> will host 555 MW of grid connected wind power, rendering it the largest wind farm in Middle East and Africa.
 
<br/>
 
At the Gulf of El <span data-scayt_word="zayt" data-scaytid="385">Zayt</span>, various projects have been developed and will add up to 720 MW. 720 MW are expected in three stages: 200 MW in cooperation with Germany, 220 MW in cooperation with Japan, and 300 MW in cooperation with Spain. In addition, a number of private companies have expressed interest in developing large-scale wind projects at the Gulf of El <span data-scayt_word="zayt" data-scaytid="386">Zayt</span>. Among them, the Italian company <span data-scayt_word="italcementi" data-scaytid="389">Italcementi</span> signed a <span data-scayt_word="mou" data-scaytid="390">MoU</span> with the Egyptian government in 2006 to install 120 MW with the possibility for extension to up to 400 MW. The output is supposed to partly generate electricity for auto-consumption in the cement factories in the Suez area.<ref name="WEI 2009/2010. World Wind Association: Wind Energy International 2009/2010, World Wind Association, Bonn, 15.09.2009">WEI 2009/2010. World Wind Association: Wind Energy International 2009/2010, World Wind Association, Bonn, 15.09.2009</ref>
 
<br/>
 
On 2 August 2009, authorities have approved the designation of 1.5 million acres of state-owned land, located on the east and west of the Nile River for the implementation of wind farms, which are supposed to contribute 30 000 MW.<ref name="MEES 2009. Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.">MEES 2009. Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.</ref> One-third of this land will be developed for wind energy production by <span data-scayt_word="nrea" data-scaytid="391">NREA</span> and multinational <span data-scayt_word="organisations" data-scaytid="392">organisations</span>, whereas two-thirds will be offered to the private sector by bid-procedure.<br/>
 
[[Egypt Energy Situation#toc|►Go to Top]]
 
<br/>
 
<br/>
 
 
== Egypt Green Economy National Initiative<br/> ==
 
== Egypt Green Economy National Initiative<br/> ==
Egypt recently faces several challenges: first, there is a widening gap in meeting basic needs of the population (food, health, education, housing and decent and secure jobs); second, its global and regional leadership in political and economic terms is called into question; third, Egypt has to win the race against time before water, energy and food scarcity become national security risks, and, forth, its export market share and investment in <span data-scayt_word="21st" data-scaytid="397">21<sup>st</sup></span> century technologies, growth sectors and industries is contested<ref name="Abouleish, H. (23 January 2011). Egypt Green Economy National Initiative. Sustainable and Green Growth: A Main Pillar of the Egyptiona National Competitiveness Strategy.[[Media:GENI_ENCC_HA_20110123.pdf|Egypt Green Economy National Initiative]]">Abouleish, H. (23 January 2011). Egypt Green Economy National Initiative. Sustainable and Green Growth: A Main Pillar of the Egyptiona National Competitiveness Strategy.[[Media:GENI_ENCC_HA_20110123.pdf|Egypt Green Economy National Initiative]]</ref>.
+
Egypt recently faces several challenges: first, there is a widening gap in meeting basic needs of the population (food, health, education, housing and decent and secure jobs); second, its global and regional leadership in political and economic terms is called into question; third, Egypt has to win the race against time before water, energy and food scarcity become national security risks, and, forth, its export market share and investment in <span data-scayt_word="21st" data-scaytid="397">21<sup>st</sup></span> century technologies, growth sectors and industries is contested<ref name="Abouleish, H. (23 January 2011). Egypt Green Economy National Initiative. Sustainable and Green Growth: A Main Pillar of the Egyptiona National Competitiveness Strategy.[[Media:GENI_ENCC_HA_20110123.pdf|Egypt Green Economy National Initiative]]">Abouleish, H. (23 January 2011). Egypt Green Economy National Initiative. Sustainable and Green Growth: A Main Pillar of the Egyptiona National Competitiveness Strategy.[[Media:GENI_ENCC_HA_20110123.pdf|Egypt Green Economy National Initiative]]</ref>. Therefore, the [http://www.encc.org.eg/(S(00wpi2mondh25145qgkweh45))/default.aspx Egyptian National Competitiveness Council] in cooperation with in cooperation with the Ministry of State for Environmental Affairs and the United Nations Environment <span data-scayt_word="programme" data-scaytid="400">Programme</span> launched the " [http://www.encc.org.eg/(S(00wpi2mondh25145qgkweh45))/news_details.aspx?mediaId=25 Egypt Green Economy National Initiative] " on January 23, 2011.<br/>'''Egypt's Competitiveness Strategy (<span data-scayt_word="ecs" data-scaytid="401">ECS</span>)''' is one part of the initiative. It focuses on human development, green transformation and innovation.<br/><u>These goals shall be reached by the <span data-scayt_word="ecs" data-scaytid="402">ECS</span> by the following:</u><br/><br/><br/>
Therefore, the [http://www.encc.org.eg/(S(00wpi2mondh25145qgkweh45))/default.aspx Egyptian National Competitiveness Council] in cooperation with in cooperation with the Ministry of State for Environmental Affairs and the United Nations Environment <span data-scayt_word="programme" data-scaytid="400">Programme</span> launched the " [http://www.encc.org.eg/(S(00wpi2mondh25145qgkweh45))/news_details.aspx?mediaId=25 Egypt Green Economy National Initiative] " on January 23, 2011.<br/>
 
'''Egypt's Competitiveness Strategy (<span data-scayt_word="ecs" data-scaytid="401">ECS</span>)''' is one part of the initiative. It focuses on human development, green transformation and innovation.<br/>
 
<u>These goals shall be reached by the <span data-scayt_word="ecs" data-scaytid="402">ECS</span> by the following:</u><br/>
 
<br/>
 
<br/>
 
 
*Human Development: Create a globally competitive and productive workforce in an efficient <span data-scayt_word="labour" data-scaytid="403">labour</span> market with a special focus on a modern educational and training system that equips them with skills, critical thinking and technologies to adapt to a constantly changing environment.
 
*Human Development: Create a globally competitive and productive workforce in an efficient <span data-scayt_word="labour" data-scaytid="403">labour</span> market with a special focus on a modern educational and training system that equips them with skills, critical thinking and technologies to adapt to a constantly changing environment.
 
*Green Transformation: To build a model of growth based on a Green Transformation of the economy assuring a modern, efficient, competitive and low-carbon economy that uses the unique availability of abundant renewable energy resources and builds on its strength in tourism and logistics.
 
*Green Transformation: To build a model of growth based on a Green Transformation of the economy assuring a modern, efficient, competitive and low-carbon economy that uses the unique availability of abundant renewable energy resources and builds on its strength in tourism and logistics.
 
*Green Innovation: To establish an outcome driven innovation model that addresses the major societal challenges and strengthen Egypt's leadership in key potential technologies: renewable energy, <span data-scayt_word="agri-business" data-scaytid="405">agri-business</span> and communication technology.
 
*Green Innovation: To establish an outcome driven innovation model that addresses the major societal challenges and strengthen Egypt's leadership in key potential technologies: renewable energy, <span data-scayt_word="agri-business" data-scaytid="405">agri-business</span> and communication technology.
[[Egypt Energy Situation#toc|►Go to Top]]
+
[[Egypt Energy Situation#toc|►Go to Top]]<br/><br/>
<br/>
 
<br/>
 
 
= Further Information<br/> =
 
= Further Information<br/> =
  
Line 533: Line 360:
 
*[https://www.cia.gov/library/publications/the-world-factbook/geos/eg.html Egypt's entry at The World Factbook]
 
*[https://www.cia.gov/library/publications/the-world-factbook/geos/eg.html Egypt's entry at The World Factbook]
 
= References<br/> =
 
= References<br/> =
<references />
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<references /> [[Egypt Energy Situation#toc|►Go to Top]]
[[Egypt Energy Situation#toc|►Go to Top]]
 
  
 +
[[Category:Egypt]]
 +
[[Category:MENA_(Middle_East_and_North_Africa)]]
 
[[Category:Country_Energy_Situation]]
 
[[Category:Country_Energy_Situation]]
[[Category:MENA_(Middle_East_and_North_Africa)]]
 
[[Category:Egypt]]
 

Revision as of 16:01, 16 February 2015

Egypt
Flag of Egypt.png
Location _______.png

Capital:

Cairo

Region:

Coordinates:

26.0000° N, 30.0000° E

Total Area (km²): It includes a country's total area, including areas under inland bodies of water and some coastal waterways.

1,001,450

Population: It is based on the de facto definition of population, which counts all residents regardless of legal status or citizenship--except for refugees not permanently settled in the country of asylum, who are generally considered part of the population of their country of origin.

112,716,598 (2023)

Rural Population (% of total population): It refers to people living in rural areas as defined by national statistical offices. It is calculated as the difference between total population and urban population.

57 (2023)

GDP (current US$): It is the sum of gross value added by all resident producers in the economy plus any product taxes and minus any subsidies not included in the value of the products. It is calculated without making deductions for depreciation of fabricated assets or for depletion and degradation of natural resources.

395,926,075,163 (2023)

GDP Per Capita (current US$): It is gross domestic product divided by midyear population

3,512.58 (2023)

Access to Electricity (% of population): It is the percentage of population with access to electricity.

100.00 (2022)

Energy Imports Net (% of energy use): It is estimated as energy use less production, both measured in oil equivalents. A negative value indicates that the country is a net exporter. Energy use refers to use of primary energy before transformation to other end-use fuels, which is equal to indigenous production plus imports and stock changes, minus exports and fuels supplied to ships and aircraft engaged in international transport.

-7.39 (2014)

Fossil Fuel Energy Consumption (% of total): It comprises coal, oil, petroleum, and natural gas products.

97.93 (2014)

Source: World Bank



Introduction

The Arab Republic of Egypt is located in North Africa and borders with Libya in the East, Sudan in the South and Palestine Territories and Israel in the East. Its population is mainly concentrated along the river Nile, as the rest of the country's territory is largely desert. Egypt is the largest country in North Africa and the Arab World, counting more than 88 million inhabitants.

Energy Situation

Energy

Primary Energy Supply

Egypt is a resource rich country. According to the US Energy Information Administration (EIA)[1], it is the largest non-OPEC oil producer in Africa and the second largest dry natural gas producer on the continent. However, primary energy production in Egypt has been steadily declining since 2009 and in 2012 reached 82,046 ktoe[2]. This is due to shortages in natural gas supply and oil production being able to keep up with the energy demand. The shortages have led to frequent electricity blackouts in the country as well as decreasing exports. In attempt to increase power generation, the Egyptian government has approved the industrial use of coal in April 2014.

Consumption

Final energy consumption in Egypt in 2012 added up to 55,879 ktoe. The share of the individual sectors is shown in table 1.

Table 1: Final energy consumption in Egypt in 2012 (ktoe) [3]
Total Final Energy Consumption

ktoe %
Industry sector 13,357 23.90
Transport sector 16,980 30.39
Other sectors 18,479 33.07
of which Residential 11,910 21.31

Commercial and public services 2,913 5.21

Agriculture/ Forestry 2,841 5.08

Non-Specified 814 1.46
Non-energy use 7,062 12.64
Total 1622 100


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Installed Generation Capacity

Between 2003 and 2008, the total installed capacity increased about 24 %, mainly through the added combined cycle and wind power installed capacity. In June 2008, the total installed capacity reached 22 583 MW, equivalent to a 2.9 % increase compared to the previous year. Of this, conventional steam power stations accounted for 11 571 MW (51.9 %), combined cycle power plants for 6 449 MW (28.9 %), and hydropower stations for 2 842 MW (12.8 %). Wind power plants provide the remaining 305 MW (1.3 %). Since 2002 / 2003, three private-sector electricity utilities have been contributing 2 048 MW of generating capacity (9 % of overall countrywide capacity in 2008) from three gas-fired steam power plants. According to the Ministry of Energy and Electricity’s five year plan from 2005, the installed capacity is to increase to a total of 32 GW by 2010. Egypt has 35 decentralised power plants (mostly diesel units) that are not connected to the national grid. The combined installed capacities of these plants added up to 258 84 MW in 2007/2008. Approximately, 350 GWh of electricity were supplied to local users including tourist resorts.


HISTORIC DEVELOPMENTS INSTALLED CAPACITY BY ENERGY SOURCE 2003-2008[4]

2003-2004 2004-2005 2005-2006 2006-2007 2007-2008
MW
Wind 140 140 183 225 305
Gas 1019 1537 1966 2416 1416
Combined Cycle 2605 2699 3949 4949 6449
Hydro 2749 2783 2783 2783 2842
Steam 11610 11616 11571 11571 11571
Total 18123 18775 20452 21944 22583


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Renewable Energy

Shares of renewable energies have not increased to a significant extent and continue to play a minor role in the energy supply structure. In 2006, renewable energy sources reached a share of 12.5 % of total grid-connected electricity production. While 12 925 GWh (12 %) were produced by hydropower installations, wind power contributed another 616 GWh (0.5 %).

Wind Energy

The current installed wind capacity accounts for 550 MW (2010/2011). Egypt is endowed with abundant wind energy resources, especially in the Suez Gulf zone. After the implementation of several experimental wind farm projects, the Ministry of Electricity and Energy set up an ambitious plan for wind farm development aiming at a total installed capacity of 965 MW in 2011/2012.[5] Egypt has outstanding wind energy conditions. Particularly in the coastal regions, high and stable wind speeds are frequent (up to an average of 10.5 m/s in the Gulf of Suez). Furthermore, the country’s large deserts and abundant thinly populated areas are well suited for the construction of large wind farms.
A detailed wind atlas has been compiled between 1998 and 2005 in a joint effort by NREA, the Egyptian Meteorological Authority (EMA) and the Danish UNEP research centre Risø. The purpose of the project was to establish a solid meteorological basis for evaluating the country’s wind resources. In addition to data records, the atlas also surveys the Egyptian wind conditions on the basis of wind models and offers detailed, meteorologically based information on site requirements for mediumsized and large wind farms. The Wind Atlas covers the entire country. However, particular attention was given to six promising areas: the Northwest Coast, the Northeast Coast, the Gulf of Aqaba, the Gulf of Suez, the Red Sea and the Western Desert. It is considered a reliable source of information and is used as the basis for all governmental decisions related to wind energy project planning and feasibility studies. A map of average wind speeds can be found in a study by Mortensen et al.[6]
For further information a wind atlas has been published by members of the Wind Energy Division at Risø DTU in Roskilde[7].
A special wind atlas36 for the Gulf of Suez was completed in 2003.[8] The assessment determined an overall potential capacity of 20 000 MW for wind power projects in the uninhabited desert regions to the west of the Gulf. A further brief study evaluated the meteorological data gathered from ten weather stations situated along the Mediterranean coast.[9] Three locations – Sidi Barrani, Mersa Matruh and El Dabaa – were founded to also exhibit suitable characteristics for the installation of wind turbines. The atlas further indicates that large regions of the eastern and western deserts of the Nile River and parts of Sinai are much higher then hitherto assumed.
Egypt Wind Atlas was issued in December 2005 in co-operation with RISO laboratories of Denmark, and Egyptian Meteorological Authority (EMA). It aims to indicate the areas with high wind speed which is qualified for wind energy projects. The Atlas concluded that, there are many promising areas with high wind speeds in the Gulf of Suez, some areas are located on both sides of the Nile River, and some areas in Sinai. These areas are qualified for hosting the establishment of large-scale wind energy projects.
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Framework Conditions

To know about the framework conditions for wind energy in Egypt see: Framework Conditions for wind energy ►Go to Top


Licensing Procedures

To know more about the Licensing procedures in Egypt see: Licensing Procedures in Egypt
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Business Climate

For more information about the business climate in Egypt, see: Business environment for investing in Egypt
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Solar Energy

Solar energy use is still in its infancy, however, regarding the Solar Thermal power (in 2007), the German company Flagsol GmbH won a tender to build a hybrid solar combined cycle plant with a total gross capacity of 140 MW. The solar field is located at Kuraymat [10]and is co-financed by the Global Environmental Facility (GEF) and the Japanese Bank for International Development. This Kuraymat site is located nearly 90 km South Cairo, and has been selected because of the following advantages:high intensity direct solar radiation reaches to 2400 kWh /m2 / year,an extended unified power grid and expanded natural gas pipelines,located near to the sources of water (the River Nile) and an uninhabited flat desert land.

The project based on parabolic trough technology integrated with combined cycle power plant using natural gas as a fuel.The project is one of 3 similar projects that are being implemented in Africa (Morocco, Algeria and Egypt), and mainly depend on integrating solar field with combined cycle.The capacity of the project is : 140 MW including solar share of 20 MW. The Total cost is : about 340 Million US Dollar as follow: 50 Million dollar grant from Global Environment Facility (GEF) – World Bank,190 Million US Dollar soft loan from Japanese International Cooperation Agency (JICA) (0,75% interest – 40 years repayment period including 10 years grace period).

100 Million US Dollar provided by NREA through national banks.


Kuraymat project data
Solar Island Combined Cycle Island
Capacity (MW) 20 120
Contractor Orascom company Iberdrolla company
Status The project was completed , in 1/ 6 /2011
initial handover certificate was issued with
2 years guarantee
The project was completed. the installation
completion certificate was issued in 4/ 5 / 2011 with 2 years guarantee
Area The total area of the solar field is 644 thousand m2. the total solar collectors are
1920 including 5370 mirrors










Commercial operation is scheduled for mid 2010. Egypt plans to extend the solar capacities with further solar thermal and photovoltaic power plant projects.[11]The five year plan (2012→2017) includes implementing 100 MW solar thermal power plant as solar energy projects are considered as corner stone in disseminating renewable energy utilization. Kom Ombo site was selected to host 100 MW Solar Thermal Power Plant Project. The consultant was selected in June 2011 in order to conduct the project feasibility study. It is expected to be finalized in mid-2012. The available finance to date is 440 Million dollar divided as follows: 100 Million dollar from CTF (99 million dollar as loan + 1 Million grant to prepare the environmental study and technical support), 170 Million dollar from the World Bank,170 Million dollar from African Development Bank,50 Million Euro from European Investment Bank, 50 Million Euro from French Agency Development and 50 Million Euro from German Government.
As for the PV power; despite being an expensive technology, Photovoltaic systems are considered the most appropriate energy application for rural and remote areas of small scattered loads which are far away from national grid. The cost of PV systems’ maintenance is limited while the PV life time is about 25 years. The total installed capacity of PV systems in Egypt is around 10 MW for lighting, water pumping, wireless communications, cooling and commercial advertisements on highways.

NREA signed a protocol for co-operation with the Italian Ministry of Environment, Land and Sea to electrify two remote settlements in Matrouh Governorate by PV systems. The project consists of: the electrification of 100 houses and 40 street light units, electrification of 1 school and 3 mosques and the electrification of 2 medical clinic units. The project has been completed and operated since December 2010.

Regarding the Future plan of Egypt for PV Projects : there is a proposed project to implement 20 MW solar Plant in Hurghada in co-operation with JICA where Tokyo Electric Power Service Company (TEPSCO) was selected to conduct the project feasibility study.The solar radiation measurement equipment was supplied beside the supply of 2 modules to measure the sand effect in the site according to solar cell performance has been erected since October 2011. The duration of the project is 18 month started from 18 January. Moreover, the second proposed project is to implement 20 MW solar plant in kom Ombo in co-operation with French development agency (AFD) where the feasibility study will be prepared through a grant presented from AFD with an amount of 800 thousand Euro .The grant agreement to be signed between The Ministry of International Cooperation & AFD is under study. .
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Hydro Power

The total installed capacity from hydropower accounted for 2 842 MW in 2008. Hydropower installations include High Dam (2 100 MW), Aswan Dam I (322 MW), Aswan Dam II (270 MW), Esna (86 MW). Current hydro power projects include the New Hammasi plant with an installed capacity of 4 x 16 MW, which started operations in 2008. For 2014, the commissioning of the New Assuit Barrage hydro electricity plant, with an installed capacity of 32 MW, is projected. ►Go to Top

Electricity Situation[4]

Egypt is a net exporter of electricity, importing 208 GWh of electricity in 2006, while exporting 557 GWh. Transmission and distribution losses account for approximately 10 % (12 583 GWh) of total electricity produced.In 2005, losses added up to 16 % of total electricity supply. The main consumer of electricity in Egypt is the residential sector which accounts for 37 % of the total consumption, followed close by the industrial sector (35 %). A future average annual growth in electricity demand of 6.35 % is expected, partly due to rising living standards and very low electricity prices.


Economic Sector GWh
Industry 34569
Residential 34596
Commercial and Public Service 11541
Agriculture and Forestry 3697
Other 12040
Total 99443








In order to meet the expected growth in demand, EEHC prepared the 6th five year plan (2008 – 2012). The plan entails adding electricity production capacity of 7 750 MW, while at the same time maximizing the use of combined cycle installations to reach a 37 % share of the total installed capacity in 2011/2012. On 31 January 2009, the government has finalized the follow-up five-year plan from 2012 – 2017 which aims at adding further 10 450 MW generation capacity.


07/08 06/07 %-change
GWh
Steam 53076 52082 1.9
Gas 9361 6888 35.9
Combined Cycle 33345 29892 11.6
Total Thermal 95782 88862 7.8
Hydro 15510 12925 20
Wind (Zafrana) 831 616 34.9
Total grid 112123 102403 9.5
Isolated plants 350 347 0.86
Purchased from IPPs 14 32.2 (56.5)

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Electricity Grid

In 2007 / 2008, the state-owned carrier grid consisted of 39 552 km. The grid is subdivided into six geographical zones, namely Cairo, Canal, Delta, Alexandria and West Delta, Middle Egypt and Upper Egypt. The country’s entire territory is covered by the grid. Medium and low voltage as well as isolated grids are owned and operated by the respective distribution companies. In June 2008, the distribution grid consisted of 142 983 km of medium voltage and 230 187 km of low voltage lines (not including non-energy use). Since 1998, efforts have been made to interconnect the Egyptian electricity grid internationally. As a result, the five-country interconnection of Egypt’s system with those of Jordan, Syria, Lybia and Turkey has been completed in 2002.[12]Links to the European electricity market have been established through the sub-marine connection between Morocco and Spain (400 KV) and over the connection Syria –Turkey. In April 2004, the Arab Maghreb countries agreed to repower the national grids of Egypt and Libya in order to upgrade the interconnection.In the fiscal year 2007 / 2008, the Egyptian Electricity Holding Company (EEHC) faced a challenge meeting the unexpectedly high peak demand, reaching 19 738 MW



THE EGYPTIAN TRANSMISSION GRID, KEY FIGURES 2008[4]

500 kV 400 kV 220 kV 132 kV 66 kV 33kv
Transformer capacity (MVA) 7765 n.s. 28850 3427 35223 1769
Total length of transmission lines 2478 33 14912 2429 16986 2713




PEAK LOADS IN THE INTERCONNECTED ELECTRICITY GRID; 2003 – 2008[4]

03/04 04/05 05/06 06/07 07/08
Peak load (MW) 14735 15678 17300 18500 19728


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Electricity Price

The electricity prices in Egypt range among the lowest in the world. The prices are fixed by the Egyptian government in a non-transparent manner and apply in equal manner to all regions. Electricity is highly subsidized. Since October 2004, several electricity tariffs were raised, by an average of 8.6 %, for the first time since 1992 and further 5 % increases were set for all electricity customers for each of the following five years. The last increase took place in November 2008. In 2008, the rise summed up to 7.5 %, including an additional 2.5 %-increase caused by high oil prices.
Although the increase in some segments exceeded 18 %; prices of the first segment of domestic consumption (less than 50 kWh per month, mainly composed of low income families) remained unchanged at 5 Pt (approximately 0.62 €-ct). The highest increase was seen for the residential consumers with a demand of >1000 kWh/ month. The governmental plan was intended to gradually accommodate the electricity prices to the actual cost of the electricity system. However, taking into consideration annual inflation rates exceeding 5 %, these increases may not suffice. The new electricity law is supposed to specify the main principles of price regulation such as the ones mentioned above.
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Rural Electrification

Under the Egyptian government rural electrification programme, a countrywide electrification rate of 99 % was achieved through grid extension projects. As assessed in a study by MEDREC[13] in 2004, there have been approximately 121 remote villages and communities which still do not have access to electricity. The Rural Electrification Authority’s target for 2008 was to electrify 327 little settlements, the strengthening of 31 village grids and the refurbishment of 41 further grids.[14]

For the few remaining remote settlements, the decentralized use of renewable energy resources is under consideration as an alternative to actual grid access. Due to the dispersed nature of both houses and rural communities, in addition to their low demand, the extension of the grid is economically unfeasible. The project MEDREP, a joint project being conducted by NREA, the governorate of North Sinai, the Egyptian environmental authorities, the Rural Electrification Agency (REA) and initiated by the Italian Ministry of Environment in 2004, aims at supplying electricity through photovoltaic to these remote rural communities as well as the utilization of solar thermal energy for heating and cooling purposes in tourist resorts and new villages.[15]
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Political Framework Conditions in the Energy Sector

Egypt has a national energy strategy, although only adopted at the level of the energy policy committee of the governing party. The strategy covers the diversification of the energy mix, higher energy efficiency, a reform of the electricity and the oil as well as natural gas markets and reduction of energy subsidies. The renewable energy strategy is a fundamental part of the national energy strategy.

The diversification of the energy mix in the electricity sector is one of the main goals of the energy strategy. It aims to reduce the consumption of fossil fuels while increasing the share of renewable energy sources and giving a new impulse to the nuclear electricity program suspended in the 1980s. In February 2008, the government set a new ambitious target of 20 % renewable energy in electricity production by 2020 excluding existing large hydro power plants.[16] Although no nuclear electricity generation targets have been set, the government launched a nuclear electricity plan in 2007. First steps to implement it have already been taken.[17]

Improving energy efficiency is a fundamental part of the strategy as well. It aims at tackling the fast growth of primary energy consumption, which tends to grow as rapidly as or even higher than real economic growth. Although numerous regulations exist for the main energy consuming sectors, implementation and enforcement is often quite low.[16] The policy on energy subsidies has changed due to the reduction of oil reserves and the financial problems associated with the existing schemes. The domestic natural gas and electricity prices have been adjusted in 2008 in order to cover at least the cost of service. Subsidies are being reduced gradually, first in energy intensive industries, and second in the tourism sector, though energy subsidies for the average consumer are not expected to change significantly.[18] With regard to the energy market, the adopted energy strategy aims to establish a fully competitive structure, where electricity production, transmission and distribution activities are fully unbundled. The strategy should also create favourable conditions to achieve the 20 % renewable energy in electricity production.[19] ►Go to Top

Framework Conditions for Renewable Energies

Strategy and Objectives for Renewable Energies

Egypt’s renewable energy strategy was formulated in the early 1980s as an integral part of the national energy planning. This strategy has been revised and adapted according to the changing financial, market and technological framework conditions. The target of a 20 % renewable electricity by 2020 (around 12 000 MW) is highly ambitious compared to the previous target set in 2000 of 14 % RE-E by 2021/22.[20]


Legal conditions and support Schemes for renewable Energies

To implement the strategy, a two phase policy is planned:


  • Phase 1 will adopt competitive bids through issuing tenders requesting the private sector to supply electricity from renewable energy sources. A PPA agreement, mostly for 20 years, will be guaranteed. This competitive bidding is based on existing law, which also supports the existing IPP.
  • In Phase 2, a feed-in-tariff will be implemented, in particular for medium and small size projects. This will be based on the new electricity law.


Further support instruments are the right of access and priority dispatching for electricity generation from renewable sources, which is already implemented, whenever they are available and the establishment of a Renewable Energy Fund. This fund will support the renewable energy activities of the MEE and the MoP covering the deficit between the renewable energy costs and market prices as well as providing financial support to pilot projects. It will be mainly financed through a levy on subsidized fossil fuel sales for electricity generation.[21]

Competitive bids
It is planned to tender a total of 2 500 MW through five bids, divided in blocks of 250 MW. The framework criteria for the tenders include:


  • Controlled increase of the renewable based electricity capacity according to the capacity of transmission system and the capacity of the market.
  • Attracting highly qualified international developers with strong financial status and high capacity for technology transfer.
  • Promotion of local manufacturing. In the evaluation of the proposals, advantages will be given to those offers having higher share of locally manufactured components.
  • Achieving the lowest possible prices.
  • Reducing the financial risk for investors guaranteeing long term PPAs (mostly of 20 years). The first process has started with a prequalification tender for 250 MW in Gabal el Zeyt. The last tender will be opened by 2017.


Feed-in-tariff
The system is supposed to offer incentives to install 2 500 MW of additional capacity. It is addressed to small and medium size projects up to 50 MW. The tariff will be probably set for 15 years, taking into consideration wind speed and installed capacity. The system is still under elaboration.
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Clean Development Mechanism (CDM)

Egypt’s Designated National Authority (DNA) was established in 2005, serving as the contact point for all CDM-related matters. Organizationally, it is part of the Egyptian Environmental Affairs Agency (EEAA).
Egypt’s current climate change mitigation policies, plans and measures relevant to CDM are contained in:
1. The National Environmental Action Plan (2002 – 2017).
2. Egypt’s Climate Change National Action Plan (ECCNAP).
3. Egypt’s National Strategy Study Program on CDM.
4. Egypt’s National Energy Efficiency Strategy (NEES)

Currently, four CDM projects are registered. Minor corrections have been requested for one project. In April 2009, 18 projects were in the DNA pipeline, of which nine were renewable energy
projects. The CDM potential in Egypt has been estimated at 69.75 Mt CO2eq, of which around 21 % is in the renewable energy sector.27 As shown in table 10, the total annual savings of the registered RE projects amounts to 0.62 Mt CO2eq. This represents 5 % of the existing potential
in the renewable energy sector and around 1 % of the whole potential.[22]
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Important Laws and Regulations

The most important instrument to implement the energy strategy is the New Electricity Law, which is currently in the process of ratification by the People’s Assembly. The new law will[23]:


  • Establish a liberalized electricity market with various market participants, regulated by EEUCPRA
  • Improve the conditions for renewable energy, cogeneration and demand side management in the electricity sector
  • Provide some rules for electricity consumption and includes measures to encourage renewable energy electricity production.

With regard to renewable energy electricity generation, the law foresees that the private sector builds, owns and operates the projects and sells the electricity to the transmission company (EETC) under long term Power Purchase Agreements (PPA). Non-renewable energy based Independent Power Producers (IPPs) conclude bilateral purchase agreements with eligible consumers.
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Liberalization

Article 7 of Law No. 100 dating from 1996 stipulates that local and international investors can obtain concessions for building and operating electricity plants. A new investment law enacted in 1997[24] includes various incentive mechanisms such as state guarantees for investors. At the time of contract negotiations concerning the supply of electricity from privately built power plants in the late 1990s, an initial public offering of stock in all seven of Egypt’s state-owned monopolistic electricity providers was in preparation for the Egyptian stock exchange. However, due to lack of interest among investors, the plan was never implemented. The last significant step of reform took place in 2000, when the Egyptian Electricity Authority was restructured to become the Egyptian Electricity Holding Company (EEHC). That conversion is regarded as a step towards a more entrepreneurial approach because, for example, EEHC is expected to finance future projects from its own budget without governmental intervention. The conversion also included the break-up of formerly vertically integrated utility companies into individual enterprises each of which is now an independent company with its own, autonomous management and separate accounting. EEHC was created as a new approach to the privatization of its subsidiaries, but no part of any state-owned enterprise has been privatized by now. Via EEHC, the Egyptian government still controls 90 % of all electricity production and is maintaining its monopoly on transmission and distribution. Until today three privately operated power plants with foreign investors have been built according to the build-own-operate (BOO) principle (Sidi Krir, Suez and Port Said), representing approximately 10 % (2 049 MW) of the current installed generating capacity.

Within the context of the new energy strategy and the ambitious renewable energy targets, recently, there has been some effort to create a more competitive electricity market in order to attract investors from the private
sector. The draft of the new Electricity Law, which is currently in the process of ratification by the People’s Assembly, is supposed to establish a liberalised electricity market, regulated by the Egyptian Electric Utility and Consumer Protection Regulatory Agency EEUCPRA. Article 20 – 22 of the draft law addresses the replacement of the current Single Buyer Model and allows for third party access to the electricity grid. The access to the electricity grids will be based on published tariffs and longterm electricity purchase agreements. Moreover, the government states that it plans to remove all energy subsidies by 2017. ►Go to Top

Institutional Set-up in the Energy Sector

Egyptian Ministry of Electricity and Energy

The first Ministry for Electricity and Energy was established in 1964. The Ministry supervises the Egyptian Electricity Holding Company as well as the New and Renewable Energy Agency (NREA) and the Rural Electrification Authority (REA). Next to supervising all activities related to energy projects, it suggests electricity prices and publishes data and statistics relating to electricity production. ►Go to Top


Regulatory Authority EEUCPRA

The Egyptian Electric Utility and Consumer Protection Regulatory Agency (EEUCPRA) was established by decree in 1997 (Decree no. 326 of 1997: »Establishing the electric utility and consumer protection regulatory agency«).The regulatory authority is located in Cairo and came into formal existence in 1998.

The primary task of the regulatory authority is to balance the interests of electricity producers, electricity providers and end users. It is supposed to ensure a reliable longterm supply of electricity while promoting and supervising environmental protection and operational reliability in the energy sector. It is also responsible for licensing the construction and operation of electricity generation, transmission and distribution facilities as well as for electricity trading. One of the authority’s declared objectives is to create an enabling environment for market-based competition within the framework of existing laws and to prevent the formation of commercial monopolies in the energy sector. EEUCPRA's Board of Directors is nominated by the Ministry of Electricity and Energy.
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New and Renewable Energy Authority (NREA)

The Ministry of Electricity and Energy established the NREA in 1986 for the purpose of bundling activities aiming to promote both renewable sources of energy and energy efficiency. NREA is the operator of all wind power installations in Egypt, including the demonstration projects in Matrouh administrative district (hybrid wind/diesel system) and Hurghada (5.5 MW wind farm), as well as the grid connected Zafarana wind farms on the Gulf of Suez (reaching 425 MW by mid 2009 and still expanding).

With the new general orientation towards private sector involvement, NREA also engages in supporting private investment in wind energy by providing resource assessment, the necessary data for feasibility studies and technical support for potential project developers, and by being the partner in land use agreements.

Moreover, the NREA has a central laboratory for testing and certifying apparatus and equipment for utilizing renewable energy resources. Finally, the NREA offers training and upgrading courses, organises workshops and conducts studies – both on its own and in cooperation with international partner organisations.
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Egyptian Environmental Affairs Agency (EEAA)

The EEAA was initially established in 1982 and restructured in 1994, according to Law 4/1994. The EEAA serves as the executive arm of the Ministry of State for Environmental Affairs (MSEA). Its administrative council is composed of the Minister of Environmental Affairs, the Chief Executive Officer of the Agency and representatives from relevant ministries, Non-Governmental Organisations (NGOs), the public business sector, universities and research centres. The Agency’s activities are financed by the Environmental Protection Fund (EPF), which is funded by donations and grants by national and foreign organizations, as well as fines and compensation awarded by courts of law. Principal functions of the agency include the formulation of environmental policies, the development and monitoring of projects and the implementation of pilot projects. The agency is further the national authority in charge of promoting environmental topics between Egypt and third parties.
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Egyptian Electricity Holding Company (EEHC)

The government-owned and operated Egyptian Electricity Holding Company (EEHC) coordinates, supervises and monitors the activities of its 16 (+1 - Includes NREA –actually a research institute – also presents itself as the operator of the Zaafarana wind farm-therefore included as a electricity production company) affiliated companies in the field of production, transmission and distribution of electric energy. The EECH subsidiary EETC is responsible for the countrywide transmission of electricity to regional and local distributors. Next to the EETC, there are six generating and nine distribution companies. The EEHC is supervised by the Egyptian Ministry of Electricity and Energy (MEE).
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Egyptian Wind Energy Association (EGWEA)

The EGWEA is the umbrella organisation, representing the wind energy sector in Egypt. It assists interaction and co-operation between all relevant players with professional involvement in the field of wind energy. The EGWEA is organised in a global network of wind associations. It aims at promoting and supporting the development of wind energy in Egypt by providing the means to facilitate the exchange of technical information, expertise and experience in the wind energy sector. It conducts studies, provides information on tenders and conferences and organises workshops for interested parties. IEGWEA is particularly interested in bringing forward wind energy interests of Egypt. However, the association is also engaged in the promotion of wind energy in developing countries in general.
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International Donor Activities

Egypt is one of the priority partner countries of the German development assistance. In the last 50 years, Egypt has received approximately 5.5 billion € development aid. The current focus areas of the bilateral cooperation are water management, renewable energies (wind, solar and
hydro power), energy efficiency and climate protection.[25] Within the framework of the German development cooperation, two initiatives to promote renewable energies and energy efficiency were launched in 2008:


  • The Regional Center for Renewable Energy and Energy Efficiency (RCREEE), based in Cairo. Key development partners in setting up RCREEE are Egypt, Germany, Denmark and the EU Commission. Besides Egypt, other Arab members of the RCREEE are Algeria, Jordan, Lebanon, Libya, Morocco, the Palestinian National Authority, Syria, Tunisia and Yemen. RCREEE formulates and disseminates policies in support of RE and EE in the region and provides a platform for the regional exchange on policy issues and technological questions. In addition, RCREEE encourages the participation of the private sector to promote the establishment of a regional RE and EE industry. The German development cooperation provides assistance for the establishment of the Center and the formulation of the initial work program by GTZ.[26]
  • The Egyptian-German High Level Committee on Renewable Energy, Energy Efficiency and Environmental Protection JCEE, is a bilateral Egyptian-German initiative. The JCEE is a platform for energy policy discussion, for developing initiatives for investment as well as institutional projects, awareness and capacity building activities and establishing contacts and exchange between the two countries. The project is financed by the Egyptian Ministry of Electricity and Energy and the German Federal Ministry of Economic Cooperation and Development (BMZ). The implementing partners of the cooperation are NREA and GTZ.

In addition, financial assistance is provided by the German Kreditanstalt für Wiederaufbau (KfW). Kf W provided a reduced interest loan to rehabilitate the hydro electricity plants at Aswan and additional loans for the construction of medium sized hydro electricity projects at the Nile River. In the wind energy sector, Kf W provided loans to finance an important part of the wind farm in Zafarana and is supporting a new wind farm in Gabal El Zeit through loans jointly with the European Investment Bank.

Apart from Germany, Denmark, Japan, Spain and Italy are the most important partners providing assistance for developing renewable energies.

At European level, a Memorandum of Understanding to enhance EU-Egypt energy cooperation was signed in December 2008. The priority areas covered are, among others, the development of the Egyptian energy strategy, including the market reform, the convergence of Egypt’s energy market with that of the EU, the promotion of renewable energy and energy efficiency, the development of energy grids as well as technological and industrial cooperation.
These include the World Bank, the UN organisations UNDP, UNIDO and UNEP as well as the African Development Bank. For instance, Egypt is one of the first countries to present a portfolio within the framework of the Clean Technology Fund established by the World Bank in 2008 to finance RE and EE projects. Egypt plans to use $300 million in concessional financing from the fund, blended with financing from the World Bank Group, the African Development Bank, bilateral development agencies, private sector and other sources to spur wind power development and introduce clean transport options. The projects include a transmission grid extension for transporting electricity from Gulf of Suez-based wind farms.[27]
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Existing Projects

Wind Energy Projects

Egypt has passed the stage of initial resource assessment and demonstration projects (Hurghada wind farm) towards the planning and implementation of large scale grid connected projects (Zafarana and Gulf of El Zayt). A series of large-scale wind energy projects have been built in Egypt, resulting in a total installed wind capacity of 390 MW at the end of 2008.
So far, large scale wind projects were established mainly at Zafarana, with a total capacity of 360 MW by end of 2008. In cooperation with Germany, Denmark and Spain, the farm has been constructed and operated in stages since 2001. A partnership with Japan in 2008 added 55 MW. In the fiscal year 2007/2008, approximately 840 GWh of electricity were generated by the Zafarana wind farm with an average capacity factor of 35.5 %, saving 466 000 tons of CO2.

NREA has precise plans for wind farm development at the two sites Zafarana and Gulf of El-Zayt. While at Zafarana a capacity of 600 MW on 150 km2 is planned, total capacity at El-Zayt will reach 720 MW on 200 km2. Between both areas, 1 300 km2 have been designated to private investors, which are supposed to generate up to further 6 000 MW. Projections for Zafarana between 2009 and 2010 include additional 75 MW in co-operation with Japan, and additional 120 MW in cooperation with Denmark. In total, Zafarana will host 555 MW of grid connected wind power, rendering it the largest wind farm in Middle East and Africa.
At the Gulf of El Zayt, various projects have been developed and will add up to 720 MW. 720 MW are expected in three stages: 200 MW in cooperation with Germany, 220 MW in cooperation with Japan, and 300 MW in cooperation with Spain. In addition, a number of private companies have expressed interest in developing large-scale wind projects at the Gulf of El Zayt. Among them, the Italian company Italcementi signed a MoU with the Egyptian government in 2006 to install 120 MW with the possibility for extension to up to 400 MW. The output is supposed to partly generate electricity for auto-consumption in the cement factories in the Suez area.[28]
On 2 August 2009, authorities have approved the designation of 1.5 million acres of state-owned land, located on the east and west of the Nile River for the implementation of wind farms, which are supposed to contribute 30 000 MW.[29] One-third of this land will be developed for wind energy production by NREA and multinational organisations, whereas two-thirds will be offered to the private sector by bid-procedure.
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Egypt Green Economy National Initiative

Egypt recently faces several challenges: first, there is a widening gap in meeting basic needs of the population (food, health, education, housing and decent and secure jobs); second, its global and regional leadership in political and economic terms is called into question; third, Egypt has to win the race against time before water, energy and food scarcity become national security risks, and, forth, its export market share and investment in 21st century technologies, growth sectors and industries is contested[30]. Therefore, the Egyptian National Competitiveness Council in cooperation with in cooperation with the Ministry of State for Environmental Affairs and the United Nations Environment Programme launched the " Egypt Green Economy National Initiative " on January 23, 2011.
Egypt's Competitiveness Strategy (ECS) is one part of the initiative. It focuses on human development, green transformation and innovation.
These goals shall be reached by the ECS by the following:


  • Human Development: Create a globally competitive and productive workforce in an efficient labour market with a special focus on a modern educational and training system that equips them with skills, critical thinking and technologies to adapt to a constantly changing environment.
  • Green Transformation: To build a model of growth based on a Green Transformation of the economy assuring a modern, efficient, competitive and low-carbon economy that uses the unique availability of abundant renewable energy resources and builds on its strength in tourism and logistics.
  • Green Innovation: To establish an outcome driven innovation model that addresses the major societal challenges and strengthen Egypt's leadership in key potential technologies: renewable energy, agri-business and communication technology.

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Further Information

References

  1. http://www.eia.gov/countries/country-data.cfm?fips=EG
  2. http://www.iea.org/statistics/statisticssearch/report/?year=2011&country=EGYPT&product=Balances
  3. http://www.iea.org/statistics/statisticssearch/report/?year=2012&country=EGYPT&product=Balances
  4. 4.0 4.1 4.2 4.3 EEHC 2008
  5. EEHC 2008. Egyptian Electricity Holding Company (EEHC): Annual Report 2007/2008, Cairo 2008
  6. Mortensen et al. 2006: Wind Atlas for Egypt: Measurements , micro- and mesoscale modelling. Proceedings of the Third Middle East – North Africa Renewable Energy Conference (MENAREC 3), Cairo, Egypt, June 12-14. 12 pp. fckLR(http://www.windatlas.dk/Egypt/About.html)
  7. www.windatlas.dk/Egypt/Index.htm
  8. Mortensen et al. 2003: Wind Atlas for the Gulf of Suez. Measurements and Modelling 1991-2001, New and Renewable Energy Authority, Cairo, and Risø National Laboratory, Roskilde 2003
  9. Shata, A.S. Ahmed: Evaluation of wind energy potential and power production on the coast of Mediterranean Sea in Egypt, Faculty of Electrical Engineering and Computer Science, Institute of Energy and Automation Technology, Technical University Berlin, 2006.
  10. Ministry of Electricity &amp;amp;amp; Energy / New &amp;amp;amp; Renewable Energy Authority (NREA) Annual Report 2010/ 2011fckLR http://www.nrea.gov.eg/annual%20report/Annual_Report_English_2010-2011.pdf
  11. Solar Millenium AG 2008
  12. EIA 2008. Energy Information Administration. Country Analysis Briefs – Egypt.
  13. MEDREC 2004. Mediterranean Renewable Energy Center: MEDREC Report 2004, available at: http://www.medrec.org/en/download/REPORT%20MEDREC%202004_egypt.pdf ; Retrieved on 10.09.2009
  14. MoEE 2009. Ministry of Electricity and Energy. http://www.moee.gov.eg; Retrieved on: 02.09.2009
  15. MEDREC 2004
  16. 16.0 16.1 JCEE 2009 - Egyptian-German High Level Joint Committee for cooperation on renewable energy and energy efficiency and environmental protection http://www.jcee-eg.net Retrieved on 8th September 2009
  17. ESIS 2008 - Egypt State Information Service. Egypt on the Threshold of a Nuclear Age. (http://www.sis.gov.eg/En/Pub/magazin/winter2008/110235000000000015.htm) Retrieved on 10th September 2009; NPPA 2009 - Nuclear Power Plants Authority. Egyptian Nuclear Program. Technical meeting on invitation and evaluation of bids for nuclear power plants. (http://www.iaea.org/NuclearPower/...F/.../Egypt_Ali_Abd_El_Nabi.pdf) Retrieved on 8th September 2009
  18. JCEE 2009; Marquer 2009. Egypt moves towards renewable energy. In: Business monthly, April 2009.
  19. El-Salmawy 2009. Renewable Energy Strategy for 20/20 and Regulatory Framework. Egyptian Electric Utility and Customer Protection Regulatory Agency. (http://www.jcee-eg.net/libdetails.asp?typeID=4)
  20. El-Salmawy 2004. Egyptian Power Sector Reform and New Electricity Law. EEUCPRA.
  21. El-Salmawy 2009; JCEE 2009
  22. Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH, Energy-policy Framework Conditions for Electricity Markets and RenewablefckLREnergies: 16 Country Analyses, Eschborn 2009, page 186.
  23. JCEE 2009; Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.
  24. Spohn, Hans-Dieter et al. 2009: Egypt – Business Guide (http://www.ghorfa.de/pdf/BusinessGuide_Aegypten.pdf ) Retrieved on 16th October 2009
  25. KfW. Landesinformation Ägypten. (http://www.kfwentwicklungsbank.de)Retrieved on 8th September 2009.
  26. RCREEE 2009. -Regional Center for Renewable Energy and Energy. (http://www.rcreee.org/about.asp) Retrieved on 8th September 2009.
  27. World Bank 2009. Egypt: Renewable Energy and Clean Transport Are Cornerstones of Low Carbon Growth. In: News and broadcast. June 5, 2009. (http://bit.ly/VllxVl) Retrieved on 10th September 2009.
  28. WEI 2009/2010. World Wind Association: Wind Energy International 2009/2010, World Wind Association, Bonn, 15.09.2009
  29. MEES 2009. Ministry of Electricity and Energy. Strategic Plan in the Electricity Sector in Egypt. Prequalification Developers’ Meeting of BOO Wind Power Project 250 MW. Cairo 2009.
  30. Abouleish, H. (23 January 2011). Egypt Green Economy National Initiative. Sustainable and Green Growth: A Main Pillar of the Egyptiona National Competitiveness Strategy.Egypt Green Economy National Initiative

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