2022
DOI: 10.3390/pr10020378
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Comparative Study between Flatness-Based and Field-Oriented Control Methods of a Grid-Connected Wind Energy Conversion System

Abstract: Wind energy is an alternative to meet the growing energy demand. Control of wind turbines should help the reliability and stable operation of the power grid. Furthermore, they should respect the technical requirements according to the grid codes to inject the wind energy into the grid. In this paper, a well-known field-oriented control (FOC) method and a new control method based on the flatness properties (FBC) are presented and compared. These control methods are applied to a wind energy conversion system (WE… Show more

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Cited by 5 publications
(2 citation statements)
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“…Table 4 provides a summary of the advantages of MPC in the proposed technique, as detailed in reference (Aimene et al, 2022). The comparison includes the percentage change in the DC-link voltage (Δ V_dc) and the control settling time (s).…”
Section: Case 1: Behaviours Under 80% Symmetrical Voltage Sagmentioning
confidence: 99%
“…Table 4 provides a summary of the advantages of MPC in the proposed technique, as detailed in reference (Aimene et al, 2022). The comparison includes the percentage change in the DC-link voltage (Δ V_dc) and the control settling time (s).…”
Section: Case 1: Behaviours Under 80% Symmetrical Voltage Sagmentioning
confidence: 99%
“…Field-oriented control (FOC) is widely used in grid-connected wind energy control systems [18], [19]. The performance normally demeans deviation of the machine parameters (resistance and inductance) from the value used in the control system [20]- [22]. Feedback linearization is another control technique based on coordinate transformation using the differential geometry theory.…”
mentioning
confidence: 99%