Power Flow Control of Wind Generation System Using DFIG
Abstract
Due to its clean and renewable nature, wind energy is becoming one of the world's important renewable sources of energy. Through its collaboration with other renewable sources of energy, such as solar energy, the world energy crisis can be solved in the future. Comparatively, with the past and due to the progressive integration of the nonlinear loads in the grid, the principal role of a Wind Energy Conversion System (WECS) is to capture the maximum power from the wind and improve the quality of power. Consequently, with the development of wind farms integrated into the grid, power quality could be better improved in the future. Variable speed wind generators are used in this work, which is more attractive than fixed speed systems because of their efficient energy production, improved power quality, and dynamic performance during grid faults. In this work, a design simulation model of wind power plant using doubly-fed induction generator with PI controller system for mitigation of power quality issue. The obtained results show that the output power (active and reactive) is free from harmonics and stable.
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References
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