Abstract
In order to properly monitor the health status of the hydrological resources of a region, in terms of water contamination, a scalable and low-cost system is necessary to map the water quality at different locations and allow the prioritization of more sophisticated and expensive monitoring campaigns on those areas where a suspicious behavior seems to be occurring. This paper presents the design and implementation process of such an IoT-based solution for low-cost and scalable water quality monitoring applications. To achieve that end, we propose the utilization of a low-cost inter-digital capacitance (IDC) sensor to characterize the conductivity of the water, a very telling parameter about the level of pollution in the water. Additionally, an embedded method to measure such sensor was designed and implemented, which considers the requirements of a portable platform: low computational capabilities, small memory and low power consumption. Our results show that an IDC sensor is capable of detecting the changes of the capacitance of the sample, and therefore mapping the changes in the conductivity of the water. Additionally, integrating an embedded measuring method is a valid option for in-situ characterization of water samples and the complete solution enables a new paradigm for water quality monitoring in large scale scenarios.
Highlights
The measurement of contaminants in hydrological resources, especially rivers, is done through the usage of highly specialized, bulky and very expensive equipment that allows the corresponding governmental protection agencies to verify the quality of the water, and determine whether it is polluted
We considered the usage of an inter-digital capacitance (IDC), which has been previously tested to detect water contaminants [2], [3], [4]
We proposed and implemented a IoT-based solution to monitor rivers by using a portable device that integrates the IDC sensor that allows us to differentiate between clean and polluted water
Summary
The measurement of contaminants in hydrological resources, especially rivers, is done through the usage of highly specialized, bulky and very expensive equipment that allows the corresponding governmental protection agencies to verify the quality of the water, and determine whether it is polluted. The IDEAM has proposed and utilizes the Water Contamination Index (WCI) to map the status of the different rivers in the country. Different variables are acquired and weighted to calculate this index: dissolved oxygen, total suspended solids, chemical oxygen demand, electrical conductivity ( known as water conductivity) and pH. These monitoring campaigns demand an impressive logistical effort to bring all the required equipment and personnel to remote areas, making them very expensive. It is necessary the design of a low-cost sensor that enables a massive monitoring of the rivers
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