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Tel. +2012 38 100 14 Rafik@nreaeg

ZAFARANA 85 MW WIND POWER PLAN AS a CDM PROJECT. Eng. Rafik Youssef Georgy. Tel. +2012 38 100 14 Rafik@nreaeg.com. The Project and Its Location. 85MW Wind Farm 100X850kW Wind Turbine 9 m/s Average Wind Speed 45% capacity factor 335 GWh/year Egypt / Spain Cooperation. Wind Speed.

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Tel. +2012 38 100 14 Rafik@nreaeg

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  1. ZAFARANA 85 MW WIND POWER PLAN AS a CDM PROJECT Eng. Rafik Youssef Georgy Tel. +2012 38 100 14 Rafik@nreaeg.com

  2. The Project and Its Location • 85MW Wind Farm • 100X850kW Wind Turbine • 9 m/sAverage Wind Speed • 45% capacity factor • 335 GWh/year • Egypt / Spain Cooperation

  3. Wind Speed Ras Seder 7.5 Abu Aldarag 8.8 Zafrana (n) 9.2 Zafrana 9.0 Zafrana (w) 7.5 St. Paul 8.4 Ras Garab 10.0 Gulf of elzat (s) 10.8

  4. Energy Generated in Egypt Total Generation 94 TWh HydroGeneration 13 TWh Thermal 68 TWh Wind 0.368 TWh Ind. Companies 0.0774 TWh BOOT 13.7 TWh

  5. Project Objective The wind generated electricity produced by the Project is to displace the grid electricity, thus, contributing to GHG reductions of 155,313tCO2e (tones of carbon dioxide equivalent) per year for the duration of the project activity. In the initial 7-year crediting period, the Project is expected to reduce approximately 1.087191 million tCO2e, generating the equivalent amount of Certified Emission Reductions (CERs).

  6. Technology to be employed by theproject activity

  7. Baseline Methodology & Additionality • Approved consolidated baseline methodology ACM0002 “Consolidated baseline methodology for grid connected electricity generation from renewable resources” • Additionality: • “Draft consolidated tools for demonstration of Additionality” • (EB 15 (1 - 3 Sept. 2004)

  8. Additionality • The Project faces significant barriers in its implementation, due to: • The high investment cost of wind power plants relative to conventional power plants • Higher Levelized cost of produced kWh compared to one of thermal power plant. • Lack of incentives to promote renewable energy. • The grid-connected wind power plant will enable reducing grid-connected thermal power plants electricity generation, thus, reducing fuel consumption hence, contributing to CO2 emissions abatement

  9. Project Boundary and Baseline Emission Factor (1/2) • The Baseline Is the electricity that would have been, otherwise, generated by operation of grid - connected thermal power plants. • Thermal power stations connected to the grid; mainly:- • - Combined Cycle • - Steam • Excluding low cost must run hydro • - Less than 20% in the last most recent years. • - Driven by irrigation needs rather than electricity needs.

  10. Project Boundary and Baseline Emission Factor (2/2) • Emission factor selected is that of the grid - connected thermal plants as net imports exceed 20% of the project electricity system. • The project will affect both Operating Margin, and Build Margin • Simple OM has been slected in view of above

  11. The Project and Emission Factors • Accountability Period: 3 x 7 years • Estimated Avoidance of Emissions: 3,261,573 Tons CO2 • Total (CERs) per year: 155,313 Tons CO2 • Total emission reduction for the first period: • Period of 7 years : 1,087,191 tCO2

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