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In this paper, a real power controller design for wind power generation has been conducted. The wind power station is assumed to be a type of doubly-fed induction generator (DFIG). Zakian's framework has been employed to maximize power output and to limit the system frequency negative impact, concurrently. Under fluctuation of wind speed in two-machine test system, the performances of the design controller...
In power systems generation and control, the load variation has a great influence directly on the system's stability and dynamic performances. This paper describes the design of a compensator for a power system subject to random load voltage fluctuation, where the voltage fluctuations are treated as persistent functions satisfying bounding conditions. For stable operation and good performances of...
Controller design for a binary distillation column is recognized as a difficult and challenging problem, especially when the controller used is of fractional order. The objective of this paper is to design fractional controllers for a binary distillation column by using the method of inequalities. The design specifications used in the paper are based on conventional step-response criteria and, in...
This paper develops a numerical algorithm for calculating the time-responses of a linear feedback system comprising a finite dimensional controller and a distributed-parameter plant described by a heat conduction equation. By approximating the spatial derivatives of the heat equation with finite differences, the feedback system is represented as a large system of linear differential-algebraic equations...
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