Design and implementation of a submerged capacitive sensor in PID controller to regulate the concentration of non-denatured ethyl alcohol

2015 International Seminar on Intelligent Technology and Its Applications (ISITIA) Pub Date : 2015-05-20 DOI:10.1109/ISITIA.2015.7219951

M. Rivai, Masaji Suwito, Peter Chondro, S. Ruan

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引用次数: 11

Abstract

Ethyl alcohol (ethanol) is one of the most common organic compounds used in medical and industrial applications. Because of its human amiability, ethanol has become a perfect solvent for organic matter with varying concentration levels for different purposes. Nevertheless, ethanol has a unique character that makes it evaporates at a level of temperature, which is called flash point. Storing ethanol above its flash point would reduce its concentration as well as its functionality. In this research, a device has been developed to control ethanol concentration in water. The concentration of ethanol is measured based on the signal of a square wave oscillator connected to a cylindrical aluminum capacitive sensor. Thus, the output frequency is imputed to a microcontroller programmed as a PID controller to produce the control signals that are used to operate two peristaltic pumps connected to two reservoirs containing non-denatured ethanol and distilled water, respectively. Magnetic stirrer is added to improve the dilution process. Overall, the designed sensor is able to identify various levels of ethanol concentration from 0.0-0.9 m3/m3. Furthermore, the implemented controller is capable to maintain the volumetric concentration of ethanol with set point ranging from 0.0-0.5 m3/m3 within 90% of success rate.

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在PID控制器中设计并实现了一种浸入式电容式传感器来调节非变性乙醇的浓度

乙醇(乙醇)是医疗和工业应用中最常用的有机化合物之一。由于乙醇对人体的亲和性，它已成为处理不同浓度、不同用途的有机物质的理想溶剂。然而，乙醇有一个独特的特性，使它在一定的温度下蒸发，这个温度被称为闪点。将乙醇储存在其闪点以上会降低其浓度和功能。本研究开发了一种控制水中乙醇浓度的装置。乙醇的浓度是根据连接到圆柱形铝电容传感器的方波振荡器的信号来测量的。因此，输出频率输入到作为PID控制器编程的微控制器，以产生控制信号，用于操作两个蠕动泵，分别连接到两个含有未变性乙醇和蒸馏水的储罐。加入磁力搅拌器以改善稀释过程。总体而言，所设计的传感器能够识别从0.0-0.9 m3/m3的不同水平的乙醇浓度。此外，所实现的控制器能够在90%的成功率内保持乙醇的体积浓度，设定值范围为0.0-0.5 m3/m3。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Seminar on Intelligent Technology and Its Applications (ISITIA)

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