Abstract
In this paper we describe a design and modeling methodology of synchronous generation system for renewable energy. Our choice fell on a synchronous generator structure with permanent magnet and axial flux simple to manufacturing to reduce the production cost of the energy generation system. The modeling approach presented leads to a scientific results of high level and opens the line of research to the study of the optimization of the energy recovered by the energy accumulator.
Highlights
In light of strong oil crises and undeniable air pollution problem, the generation of renewable energy from wind has become a current project
Where J is the moment of inertia of the rotating parts, Piron are the iron losses, Ω is the angular velocity of the propeller, Pm are the mechanical losses and Tem is the torque on the shaft of the synchronous generator
The global model of the energy generation system is based on the connection of the different Simulink models of the components making up this chain (Figure 7)
Summary
In light of strong oil crises and undeniable air pollution problem, the generation of renewable energy from wind has become a current project. In this context several research addresses this problem. This study illustrates a parameterized model of the energy generation system that can be a problem of recovered energy optimizing. In this direction, this paper is organized as follows: - The first part concern the presentation of the conversion chain structure. - The second part presents the different models of the conversion chain. This paper is organized as follows: - The first part concern the presentation of the conversion chain structure. - The second part presents the different models of the conversion chain. - And the third part presents the results of simulations
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