Your search keyword '"Park, Kiwoo"' showing total 2 results

1. Self-tuning fuzzy logic control of a switched reluctance generator for wind energy applications.

Author

Park, Kiwoo and Chen, Zhe

Abstract

This paper presents a new self-tuning fuzzy logic control (FLC) based speed controller of a switched reluctance generator (SRG) for wind power applications. Due to its doubly salient structure and magnetic saturation, the SRG possesses an inherent characteristic of strong nonlinearity. In addition, its flux linkage, inductance, and torque are highly coupled with the rotor position and phase current. All these features make the application of traditional controllers to the SRG difficult and unsatisfactory. The proposed controller consists of three main parts: turn-on and turn-off angle determination, self-tuning FLC for speed control, and a current controller. The turn-on and turn-off angle determination, as its name implies, controls the turn-on and turn-off angles of power switches to improve the efficiency and torque regulation of the SRG. The self-tuning FLC is the speed controller which has better adaptability than a traditional controller so that it provides better performance over a wide range of operating conditions. The current controller is basically a hysteresis controller which controls the phase current in accordance with the turn-on and turn-off angles. Simulation results are shown to verify the effectiveness of the proposed controller. [ABSTRACT FROM PUBLISHER]

Published

2012

2. A Novel Excitation Assistance Switched Reluctance Wind Power Generator.

Author

Liu, Xiao, Park, Kiwoo, and Chen, Zhe

Subjects

*NUCLEAR excitation, *RELUCTANCE motors, *WIND power, *ELECTRIC power production, *ELECTRIC inductance, *PROBLEM solving

Abstract

The high inductance of a general switched reluctance generator (SRG) may prevent the excitation of the magnetic field from being quickly established enough, which may further limit the output power of the SRG. A novel excitation assistance SRG (EASRG) for wind power generation is proposed in this paper to solve the above problem. C-shape stator cores are employed in a modular design concept for quick maintenance or replacement, and a ring-shape excitation assistant coil is sandwiched in the space between the modular stator cores. The magnetization and torque characteristics are simulated by 3-D finite element analysis. The prototype of the proposed EASRG is built and the preliminary measurement of the inductance was done. The relative big difference between the measured and calculated result of the maximum inductance may be caused by the machining error of the air-gap. The prototype would be further examined and tested to prove the feasibility of the design. [ABSTRACT FROM AUTHOR]

Published

2014