一种开放源码的偏远地区水质测量系统

M. Tariq, Asif Siddiq, Hafsa Irshad, Muhammad Aman, Muhammad Shahbaz Khan
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引用次数: 0

摘要

缺乏安全饮用水导致与身心健康有关的恶劣条件。为了量化水的质量,在主要城市设有测试水的实验室,这些实验室根据世界卫生组织(世卫组织)的建议评估饮用水的基本质量参数,例如总溶解盐(TDS)、离子浓度(电导率)、浊度和pH值。由于在偏远地区没有这种检测实验室,因此很难对饮用水进行检测。建立这样的实验室是一项繁琐的工作,因为它需要大量昂贵的设备和经过专门培训的人员来操作,使它们难以处理。针对这些问题,设计了一套能够测量盐浓度、离子浓度、浊度和pH值等基本可测水质的偏远地区水质监测系统。利用这种系统,用户可以将附近的水确定为安全或不安全的饮用用水。根据标准测试结果对系统结果进行了评价,发现我们的水质监测系统与标准实验室结果一致,pH值、浊度、电导率和TDS的平均误差分别为2.9%、1.4%、1.2%和1.2%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Open Source Water Quality Measurement System for Remote Areas
The unavailability of safe drinking water leads to poor conditions related to mental and physical health. To quantify the quality of water, laboratories testing the water are present in major cities which assess the basic quality parameters of drinking water, e.g., total dissolved salts (TDS), ion concentration (conductivity), turbidity, and pH value as recommended by the World Health Organization (WHO). The unavailability of such testing laboratories at remote locations makes the testing of the drinking water difficult. Establishing such laboratories is a tedious job as it requires a lot of costly equipment and specially trained personnel to operate them, making them difficult to handle. To address these issues, a water quality monitoring system for remote areas was designed which is capable of measuring basic measurable qualities of salt concentration, ion concentration, turbidity, and pH value. With the utilization of such a system, the user can qualify the water present in the vicinity as safe or unsafe for drinking purposes. The results from the proposed system are evaluated based on standard testing results and it is found that our water quality monitoring system is in agreement with the standard lab results with an average error of 2.9%, 1.4%, 1.2%, and 1.2% for pH, turbidity, conductivity, and TDS, respectively.
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