2 Years Impact Factor:
2.85
5 Years Impact Factor: 1.53
Author: Ms. Balagani Jhansi Rani , Mr. Keshavarapu ShivaKrishna
Abstract:
In wind energy conversion systems, the fundamental frequency step-up transformer acts as a key interface between the wind turbine and the grid. Recently, there have been efforts to replace this transformer by an advanced power-electronics-based solid- state transformer (SST). This paper proposes a configuration that combines the doubly fed induction generator-based wind tur- bine and SST operation. The main objective of the proposed con- figuration is to interface the turbine with the grid while providing enhanced operation and performance. In this paper, SST controls the active power to/from the rotor side converter, thus, eliminating the grid side converter. The proposed system meets the recent grid code requirements of wind turbine operation under fault condi- tions. Additionally, it has the ability to supply reactive power to the grid when the wind generation is not up to its rated value. A detailed simulation study is conducted to validate the performance of the proposed co
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