Design and Development of Real-Time Water Quality Monitoring System

2019 Global Conference for Advancement in Technology (GCAT) Pub Date : 2019-10-01 DOI:10.1109/GCAT47503.2019.8978414

Meghana M, Kiran Kumar B M, Ravikant Verma, D. Kiran

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引用次数: 5

Abstract

For agriculture, business and even human life, fresh water is very much essential. Nearly, 70% of its surface water resources and increasing proportion of its groundwater reserves are contaminated. This has become a serious issue in many countries. Hence, an attempt is made to measure the essential and important parameters of water bodies and to determine the contamination level in water. This paper presents a system that is developed to measure the parameters of water such as turbidity, dissolved solvents, pH and temperature. The contamination level of water has been determined by comparing the obtained parameters with their respective ideal ranges. The water parameters have been considered for the purposes of drinking, vegetation and aquatic life. The developed system is equipped with the suitable sensors to measure water parameters. The sensors are interfaced with Arduino UNO and Raspberry Pi for data processing and transmission. The system is designed to float on the water body there by transmitting the measured data trough Wi-Fi to the remote place. The developed water quality monitoring system requires 17 Watts of on-board power and takes 8sec of time for complete processing of one set of data.

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实时水质监测系统的设计与开发

对于农业、商业甚至人类生活来说，淡水都是必不可少的。近70%的地表水资源和越来越多的地下水储量受到污染。这在许多国家已经成为一个严重的问题。因此，试图测量水体的基本和重要参数，并确定水中的污染程度。本文介绍了一种用于测量水的浊度、溶解溶剂、pH值和温度等参数的系统。通过将得到的参数与其各自的理想范围进行比较，确定了水的污染程度。为了饮用、植被和水生生物的目的，已考虑了水参数。所开发的系统配备了合适的传感器来测量水参数。传感器与Arduino UNO和树莓派接口进行数据处理和传输。该系统通过Wi-Fi将测量数据传输到遥远的地方，从而漂浮在那里的水体上。开发的水质监测系统需要17瓦的车载功率，完成一组数据的处理需要8秒的时间。

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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2019 Global Conference for Advancement in Technology (GCAT)

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