Abstract :
Conventional industrial mixing is ineffective, which consumes a lot of energy. In this paper, an effective mixing approach is proposed and implemented by using an electrical chaoization. Namely, a permanent-magnet DC motor, which acts as the agitator, is electrically chaoized by time-delay feedback control. It is identified that there are three adjustable control parameters: the torque parameter which induces chaotic motion, the speed parameter which adjusts the motion boundary, and the time-delay parameter which tunes the refreshing rate. Both computer simulation and experimental results are given to verify the proposed chaoization. Finally, realistic mixing of an acid-base solution is used to verify the effectiveness of the proposed chaotic mixing.
Keywords :
DC motors; chaos; delays; feedback; machine control; mixing; motion control; permanent magnet motors; adjustable control; chaotic mixing; chaotic motion; electrical chaoization; industrial mixing; motion boundary; permanent-magnet DC motor; speed parameter; time-delay feedback control; torque parameter; Blades; Chaos; Computer simulation; Costs; DC motors; Drugs; Feedback control; Impellers; Motion control; Torque control; Chaos; mixing; motion control; motors;
