الفهرس 
Wind Energy Generation ModelOnly 14 pages are availabe for public view
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Abstract
Many of electrical loads such as tourist villages on Red and Mediterranean Seas are far from the electric network in Egypt. Diesel generators are commonly used for supplying these loads. But, these generators are costly and unreliable. On the other wise, renewable energy sources (RESs) are the most convenient power supply for these loads. Also, wind energy generation system (WEGS) is the most type of these RESs specially at the coasts of Red and Mediterranean Seas in Egypt. Therefore, this thesis aims to assess the operation of WEGS to supply isolated loads in Egypt. The operation of WEGS depends on the meteorological conditions at the installation site, characteristics of the wind turbine and generator. Also, operating WEGS to supply isolated loads, at far areas of electric networks, needs a backup power supply (BUPS) to satisfy the energy requirements of these loads. So, number of models are introduced in this thesis to optimize wind generators at the installation site with different BUPSs from technical and economical points of view to supply isolated loads. These BUPSs are diesel generator and storage battery. The proposed models are applied numerically to assess the generation of different wind generator modes (WGMs) installed at Hurghada site. Also, these WGMs are optimized with the aforementioned BUPSs to develop the optimal hybrid generation system (HGS) of these WGMs and BUPSs for supplying the electrical loads of a tourist village at the considered Egyptian site. Then, the reliability of this HGS is modeled and evaluated at different outages of wind generator and backup power supply.