Modeling and Optimal Classical Control of Blending Tank Level System in Cement Plant

Abraham Amole, D. Akinyele, O. Aina, O. Olabode
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引用次数: 1

Abstract

Optimal material level control in blending tank can be achieved through the use of a PID controller. However, the major challenges of PID controller are high overshoot and steady-state error, prolong settling time, and slow response which practically causes wastages and equipment downtime. Thus, in this work classical techniques were employed to tune PID controllers to achieve optimum performance of the blending tank level control. The mass balance principle was used to model level of the blending tank while Zigler-Nichols (ZN), Chien-Hrones-Reswick (CHR), and Cohen-Coon (CC) techniques were used to tune the PID controller for optimal performance. The performance of the simulated control schemes MATLAB/Simulink were evaluated using rise time, settling time, peak amplitude, and overshoot. The results revealed that the ZN-PID controller gave the lowest rise time of 2.11s, settling time of 14secs, and peak amplitude of 1.04 while the lowest overshoot of 0% was achieved by both CHR and CC-PID. It can be inferred that ZN-PID gives the best way of controlling the level of the blending tank.
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水泥厂搅拌槽液位系统建模及最优经典控制
通过使用PID控制器可以实现混合槽料位的最优控制。然而,PID控制器的主要挑战是高超调量和稳态误差,长稳定时间,响应慢,实际造成浪费和设备停机。因此,在本工作中,采用经典技术对PID控制器进行整定,以达到混合罐液位控制的最佳性能。采用质量平衡原理对混合槽液位进行建模,并采用Zigler-Nichols (ZN)、Chien-Hrones-Reswick (CHR)和科恩-库恩(CC)技术对PID控制器进行调优。通过上升时间、稳定时间、峰值幅度和超调量对MATLAB/Simulink仿真控制方案的性能进行了评价。结果表明,ZN-PID控制器的最小上升时间为2.11s,沉降时间为14s,峰值幅度为1.04,而CHR和CC-PID控制器的最小超调量均为0%。由此可以推断,ZN-PID是控制混合槽液位的最佳方法。
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