International Journal of Research in Engineering and Science (IJRES) ISSN (Online): 2320-9364, ISSN (Print): 2320-9356 www.ijres.org Volume 2 Issue 8 ǁ August. 2014 ǁ PP.38-44 www.ijres.org 38 | Page Independent Control Of Active And Reactive Powers From DFIG By Logic Fuzzy S. Mansouri* And A. Benatillah** Labo EESI, Faculté des sciences et science de l’ingénieur, University of Adrar Street, Adrar, Algeria Abstract – This paper presents the study and use by simulating the fuzzy logic control of asynchronous generator dual fuel in the production of electrical energy that the .for I prepared a study of the wind system and a model of the wind turbine was established by following the study and modeling of doubly fed asynchronous. Two types of vector control have been the subject of study in this work for independent control of active and reactive power: the direct and indirect control .la fuzzy PI control is introduced to increase the robustness of markers vis-à-screw parametric variation of the machine in the simulation results obtained were compared to the validated work articles cited in the bibliography. Keywords: wind Power, DFIG, Vector control, fuzzy, PI. I. INTRODUCTION Electrical energy is a key factor in the development and evolution of human societies as it is on the plane to improved living conditions on the development of industrial activities. It has become a form of vital energy through its flexibility and multiple business areas or she is expected to play a role more important.ces modes of production and the means of distribution partners are brought to undergo profound changes in the coming decades. [1] Production of renewable energy has been extensively developed in recent years. Indeed, the modes of production based on the transformation of renewable energy for example wind, are expected to be increasingly used in the context of sustainable development. [2] Wind power appears clearly prominently, not to replace conventional sources, but as nuclear energy. [3] This paper describes a study on the use of asynchronous tandem pilot through the power rotor sizes, integrated system in a wind machine. The goal in this work is to provide those who follow instructions perfectly thanks to the fuzzy logic control [4,5,6,7] and reactive power. study the system isilluste illustrated fig.1. diagram of the system studied [8] II. Modeling system: A- Modeling of the wind turbine: The power produced by the Pt éolenne expressed as following: ) β , λ ( c p ν 3 R 2 ρ 2 1 = p t (1) the torque and power in function of the speed of the axis [9] ω t ) β , λ ( c p ν 3 R 2 ρ 2 1 = ω t p t = C m (2) the speed ratio of λ [10] ν R . G . ω r = ν ω t = λ (3)