Matlab Simulation Model of DFIG with wind turbine
This is part of the code for the research on "Avoiding Frequency Second Dip in Power Unreserved Control During Wind Power Rotational Speed Recovery".
Hybird programming using C++, Python, and Matlab is adopted. The codes can be easily converted to unified C++ implementation for the real-time control of real middle-scale power systems without/with connections to a central power grid such as a grid of more than 1000 MW power capacity. The control strategies differ when without/with the connections.
If you find our work is useful to your research, please cite the paper:
@article{liu2018avoiding,
title={Avoiding frequency second dip in power unreserved control during wind power rotational speed recovery},
author={Liu, Kangcheng and Qu, Yanbin and Kim, Hak-Man and Song, Huihui},
journal={IEEE Transactions on Power Systems},
volume={33},
number={3},
pages={3097--3106},
year={2018},
publisher={IEEE}
}