الفهرس 
الغلاف الانجليزىOnly 14 pages are availabe for public view
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Abstract
The installation and usage of wind power plant has significantly increased since several years due to the recent necessity of creating renewable, sustainable and clean energy sources. Before the accomplishment of a wind power project many pre-studies, modeling, simulations, and tests are required in order to verify the possibility of integrating a wind power plant in the electrical network. The creation of models in different software and their simulation can bring the insurance of a secure operation that meets the numerous requirements imposed by the electrical system, and achieving the grid code requirements.
Nowadays there are different types of wind turbine, and different types of generators, these types are connected in parallel with each other and connected to isolated load or connected directly to the main grid. Hence, this Ph.D. thesis main objectives are the creation of a wind farm model. This model represents the wind turbines including three types of generators , these generators are, three-phase synchronous generator, three-phase induction generator of its two types ( squirrel-cage and wound-rotor) , all generators are connected in parallel and connected to the grid . The main goals of this thesis are to develop an accurate model of the wind farm with the different types of generators, after that the dynamic response of the overall wind farm will be studied at different conditions. A complete study of the behavior of the wind farm generators towards the different line faults and shows the effect of these faults on the system stability. Designing of a transient fault ride-through controller, controlling active and reactive power are another goals of the work.
The model is created in the MA TLAB software that enables the dynamic and static simulations of electromagnetic and electromechanical systems. The model is tested according to different cases of normal and abnormal conditions.