论文信息 - Design and control of a two disks asymmetrical rotor system supported by a suspension with linear electromechanical actuators

Design and control of a two disks asymmetrical rotor system supported by a suspension with linear electromechanical actuators

This paper describes the problem of design of an experimental setup for rotordynamic analysis and unbalance control. The rotor system has two disks in an asymmetrical configuration along a steel shaft which is connected to a three phase AC motor by a flexible coupling. A suspension with two linear electromechanical actuators is used to control actively the vibrations caused by unbalance in disks. A LQR scheme with estimated state feedback is developed based on a reduced order finite element model of rotor system. The controller is applied taking into account the actuators dynamics. Some advances in the construction of the prototype and open loop experimental results are presented. The dynamic behavior of the closed loop system are shown by numerical simulations.

G. Silva-Navarro | M. Arias-Montiel

[1] Joseph Edward Shigley,et al. Mechanical engineering design , 1972 .

[2] Jianjun Shi,et al. Active Balancing and Vibration Control of Rotating Machinery: A Survey , 2001 .

[3] J. M. Vance,et al. Rotordynamics of Turbomachinery , 1988 .

[4] P. Couzon,et al. Neuro-fuzzy Active Control of Rotor Suspended on Active Magnetic Bearing , 2007 .

[5] Ilmar F. Santos,et al. Control System Design for Flexible Rotors Supported by Actively Lubricated Bearings , 2008 .

[6] Valder Steffen,et al. Modal Active Vibration Control of a Rotor Using Piezoelectric Stack Actuators , 2007 .

[7] Alan Palazzolo,et al. Control of flexible rotor systems with active magnetic bearings , 2008 .

[8] G. Silva-Navarro,et al. Finite element modeling and unbalance compensation for a two disks asymmetrical rotor system , 2008, 2008 5th International Conference on Electrical Engineering, Computing Science and Automatic Control.

[9] S. Liberty,et al. Linear Systems , 2010, Scientific Parallel Computing.