基于神经网络的水处理pH和混凝调节系统

Q2 Decision Sciences

IAES International Journal of Artificial Intelligence Pub Date : 2023-06-01 DOI:10.11591/ijai.v12.i2.pp560-567

Oscar Ivan Vargas Mora, Daiam Camilo Parrado Nieto, Jairo David Cuero Ortega, Javier Eduardo Martinez Baquero, Robinson Jimenez Moreno

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引用次数: 0

摘要

本文件介绍了一种机器学习模型开发，作为改进阿里亚里区域输水管道（ARA）化学加药程序的工具。监督学习模型已从渡槽进水口处的数据颜色、浊度和pH的知识以及通过罐式试验获得的A型硫酸铝和氧化钙（石灰）的给药结果开始解决。通过连续的系统训练，自动学习模型的构建有了一个全面的实施和改进领域，允许硫酸铝和石灰的最佳剂量产生小于7.5的出口pH和小于8的浊度单位（NTU）的出口浊度。这些出水参数符合哥伦比亚社会保护部的标准。此外，创建了一个虚拟罐子测试，以将获得化学剂量值所需的时间减少到不到一分钟。相比之下，实验室测试大约需要半小时才能显示结果。

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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Neural network-based pH and coagulation adjustment system in water treatment

This document presents a machine learning model development as a tool to improve chemical dosing procedure in ariari regional aqueduct (ARA). The supervised learning model has been addressed starting from the knowledge of data color, turbidity and pH at the water inlet to the aqueduct and the dosing results of type A aluminum sulfate and calcium oxide (lime) obtained through jar tests. The construction of the automatic learning model had a comprehensive implementation and improvement field through continuous system training, which allowed an optimal dosage of Aluminum Sulfate and Lime to generate an outlet pH less than 7.5 and outlet turbidity less than 8 nephelometric turbidity unit (NTU). Those outlet water parameters meet the ministry of social protection criteria in Colombia. Also, a virtual jar test was created to reduce the time required to obtain chemical dosing values to less than a minute. In contrast, a laboratory test takes approximately a half-hour to displays results.

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来源期刊

IAES International Journal of Artificial Intelligence Decision Sciences-Information Systems and Management

CiteScore

3.90

自引率

0.00%

发文量

170