@article{Sonia, Anil Kumar Dahiya_2022, title={Superconducting Magnetic Storage for Dynamic Stabilization of Grid Connected DFIG Based Wind Farm}, url={http://thedesignengineering.com/index.php/DE/article/view/8967}, abstractNote={<p>The growing number of intermittent renewable energy resources imposes threat to voltage stability in the power network system. The Doubly fed induction generator wind farms are getting favor due to their interesting features. That is why, the influence of these wind farms on the overall stability of the grid system is important to analyze. The wind variations cause fluctuations in power output of wind generator which can result in instability issues of the power system. The magnetic energy storage device can provide solution to variability induced in the system by compensating the real and reactive powers. The Superconducting Inductor Coil (SIC) system can provide dynamic support along with power smoothing by provide stored energy in its coil. This paper studied the ability of SIC to tackle the dynamic voltage stability issue and power smoothing using MATLAB/Simulink during short wind gusts</p&gt;}, number={1}, journal={Design Engineering}, author={Sonia, Anil Kumar Dahiya}, year={2022}, month={Jan.}, pages={1049-1056} }