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- Title
A Temporal Power Surge Control in Microgrid Using Optimal Rotational Speed of Wind Turbine.
- Authors
Kawai, Hisanao; Tsuji, Takao
- Abstract
This paper examines an inertial response control for wind turbines in order to provide the system inertia decreased by the integration of asynchronous variable renewable energy sources. Specifically, an application of the temporal power surge, a strategy by which the output of a wind turbine can be temporarily increased with releasing the kinetic energy stored in the rotating mass, was proposed to address significant frequency drops in a microgrid. Since the rotational speed of turbine has to be decreased by this approach, it is necessary to further reduce the wind power output to recover the rotational speed after the temporal power surge. This drawback may lead to a second frequency drop, and it is effective to intentionally increase the rotational speed beforehand to mitigate this negative effect. However, this measure causes output curtailment under normal operating conditions. Hence, a determination method of the rotational speed considering the output curtailment was proposed in this paper to facilitate frequency regulation through the temporal power surge. The proposed methods for adjusting rotational speed are evaluated and their effectiveness were verified through numerical simulations. © 2023 Institute of Electrical Engineer of Japan and Wiley Periodicals LLC.
- Subjects
JAPAN; MICROGRIDS; RENEWABLE energy sources; KINETIC energy; WIND power; WIND turbines
- Publication
IEEJ Transactions on Electrical & Electronic Engineering, 2023, Vol 18, Issue 12, p1876
- ISSN
1931-4973
- Publication type
Article
- DOI
10.1002/tee.23932