Wind Energy Conversion System with DFIG and STATCOM for Optimized Integration of Wind Power into Transmission and Distribution System

The aim of this paper is to present modeling and simulation of wind turbine driven doubly-fed induction generator. There are two pulse width modulated voltage source converters are connected back to back between the rotor terminals and utility grid via common dc link. In this paper the performance of DFIG wind system during dynamic loading and in various fault conditions are analyzed at variable wind speed. The performance of DFIG wind system during dynamic loading and in various fault conditions are analyzed at variable wind speed. This project is a small step forward and gives the benefits of static synchronous compensator (STATCOM) for wind farm integration based on DFIG. To generate reference voltage for a static compensator (STATCOM) operating in voltage control mode. The proposed individual wind turbine using STATCOM of dynamic wind farm electric network, of a Power Flow Control of DFIG Generators for Wind Turbine Variable Speed using STATCOM is connected to the grid. The control capability of the wind farm that is a critical issue in paining and working of the wind system. The dc link capacitor to exchange the power with the three phase feeders, the power-quality issues by providing load balancing and voltage regulation on the load can be satisfied with the proposed method.