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Modeling, Control and Experimental Validation of a Flywheel-Based Energy Storage Device
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| Author(s) |
Fr. Díaz-González; A. Sumper; O. Gomis-Bellmunt; R. Villafafila-Robles |
| Abstract |
This work deals with the modeling, control and experimental validation of a flywheel-based energy storage device. The system is based on a low-speed rotating disk mechanically coupled to a Permanent Magnet Synchronous Machine (PMSM). The electrical power is exchanged with the external grid by means of a set of back-to-back power converters. These power electronics control the speed of the machine, and thus the active power absorbed or injected by the device, and also regulate the reactive power at the point of common coupling with the external grid. Vector control techniques are used for designing the converter controllers: a field oriented vector control algorithm is implemented for governing the servomotor while an instantaneous power theory-based algorithm is used to manage the active and reactive currents
flowing from the grid side converter. The control implementation in the experimental setup has been carried out by means of programming Digital Signal Processors (DSP’s). The modeling and control system design has been validated after executing several experiments. Other characteristics such as the torque losses of the system as well as the system performance concerning energy rating, power rating and energy efficiency characteristics are determined experimentally. |
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| Filename: | Unnamed file |
| Filesize: | 1.025 MB |
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| Type |
Members Only |
| Date |
Last modified 2013-12-05 by System |
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