Analysis of the effects of recycling on process control

IF 0.7 4区 工程技术 Q4 CHEMISTRY, APPLIED
Cássio R.A. Silva, Victor C. Panuci, M. R. Coutinho, W.A.dos S. Conceição, C. M. Andrade
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引用次数: 0

Abstract

Abstract The union of different devices in order to obtain a specific response for a process is commonly called a control system. For a control system, it is necessary to have one or more controllers. Among the most used in the industrial sector are the PID and PI controllers. Next to these controllers is the control software. Scilab is a good example of control software. It is characterized as free code software, with no cost for its acquisition, in addition to having a large computational power and integrated tools, such as Xcos, intended for modeling and simulation. For the union with Scilab, there is Arduino. Such a mixture can be used, for example, to control liquid levels in tanks. In this context, the present work aims to study the tank-level control system based on PID and PI controllers through the union between Scilab and Arduino. Phenomenological models were developed based on closed-loop control (feedback control system) of the process with two tanks not coupled with recycle. Furthermore, for comparison purposes, two approaches were used for each process: one considering the saturation of the manipulated variable and the other without the presence of such saturation. At first, there was a need to implement an anti-windup system. For tuning the controller parameters, the ISE method was used, executed through a programming code developed in Scilab. The parameters found for the two systems were tested on a made-up experimental bench. Therefore, using the block diagrams and the method here called “ISE method”, satisfactory values were obtained for the control parameters. These were ratified in the tests carried out in the experimental module. Level control was achieved with greater prominence for the PI controller since there is one less parameter to be tuned and processed by the system. This controller provided results close to the PID controller for cycles up to 50%. In general, the PI controller showed maximum response deviations smaller than the PID, such as deviations of 1.55 cm and 2.40 cm, respectively, for the case with 75% recycle. It was also clear the influence of the saturation of the manipulated variable on the system response, but not on the tuning of the controller parameters.
循环利用对过程控制的影响分析
为了获得对一个过程的特定响应而把不同的装置联合起来,通常称为控制系统。对于一个控制系统来说,必须有一个或多个控制器。在工业领域中使用最多的是PID和PI控制器。在这些控制器旁边是控制软件。Scilab是控制软件的一个很好的例子。它的特点是免费代码软件,除了具有强大的计算能力和集成工具(如Xcos),用于建模和仿真之外,不需要任何成本。对于与Scilab的联合,有Arduino。例如,这种混合物可用于控制储罐中的液位。在此背景下,本工作旨在通过Scilab和Arduino的结合,研究基于PID和PI控制器的储罐液位控制系统。建立了基于闭环控制(反馈控制系统)的双罐不耦合循环过程的现象学模型。此外,为了比较的目的,对每个过程使用了两种方法:一种考虑被操纵变量的饱和,另一种不考虑这种饱和。起初,有必要实施一个反清盘制度。为了调整控制器参数,使用ISE方法,通过在Scilab中开发的编程代码执行。在搭建的实验台上对两种系统的参数进行了测试。因此,使用方框图和这里称为“ISE法”的方法,获得了令人满意的控制参数值。这些在实验舱进行的测试中得到了证实。由于系统少了一个需要调整和处理的参数,因此PI控制器的电平控制更加突出。该控制器提供的结果接近PID控制器的周期高达50%。总的来说,PI控制器的最大响应偏差小于PID,在75%回收率的情况下,偏差分别为1.55 cm和2.40 cm。被操纵变量的饱和度对系统响应的影响也很明显,但对控制器参数的调整却没有影响。
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来源期刊
Polish Journal of Chemical Technology
Polish Journal of Chemical Technology CHEMISTRY, APPLIED-ENGINEERING, CHEMICAL
CiteScore
1.70
自引率
10.00%
发文量
22
审稿时长
4.5 months
期刊介绍: Polish Journal of Chemical Technology is a peer-reviewed, international journal devoted to fundamental and applied chemistry, as well as chemical engineering and biotechnology research. It has a very broad scope but favors interdisciplinary research that bring chemical technology together with other disciplines. All authors receive very fast and comprehensive peer-review. Additionally, every published article is promoted to researchers working in the same field.
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