AQUAMAG: Smart Water Quality Monitoring through Internet of Things (original) (raw)
Related papers
SMART WATER MANAGEMENT AND WATER QUALITY MONITORING BY USING INTERNET OF THINGS
Transstellar Journals, 2022
One of the main concerns for green globalization is water contamination. Environmental monitoring is a fascinating system that plays a significant role in human life in the twenty-first century. Water quality must be monitored in real time to maintain the safe supply of drinking water and other water-related activities. This document shows a little effort stage progression and plan. The Arduino Uno microcontroller is used in this project, along with many sensors linked to the platform. The gadget, which consists of a variety of sensors, is used to measure the physical and chemical properties of water in diverse places. Factors like PH, Temperature and turbidity for water quality can be estimated. It is possible to quantify quality. The output of the sensors is kept in a data logger and transferred to the cloud over the Internet. As an acidic base, we can tell if the water is drinkable or not. In this research work, three sensors are used. These sensors are pH, Temperature sensor and ORP sensor.
Sensors and Materials, 2021
This paper proposes an evaluating, monitoring, and warning system for water quality for taking care of fish that includes an Arduino Mega2560 board and a sensor system with wireless communication technologies based on IoT technology. Not only the temperature but also the pH and dissolved oxygen (DO) content of water are acquired through the Arduino Mega2560 board. These measurement data are transferred to the server through ESP8266 and SIM800A modules integrated on the board. The stored temperature, pH, and DO values are displayed on a ThingSpeak server. Furthermore, the fault detection of water quality under real working conditions is handled and displayed on the platform or a cellphone-based web service and short messaging service (SMS). The accuracy and reliability of the system for the functions of monitoring, evaluation, and fault detection were demonstrated. Compared with established systems, the proposed system has the advantages of (1) reduced cable use for the monitoring system, (2) a warning system via a cellphone-based SMS cellphone or web service, (3) costeffectiveness, and (4) portability.
Design and Implementation of a Low-Cost Portable Water Quality Monitoring System
Computers, materials & continua, 2021
Water is one of the needs with remarkable significance to man and other living things. Water quality management is a concept based on the continuous monitoring of water quality. The monitoring scheme aims to accumulate data to make decisions on water resource descriptions, identify real and emergent issues involving water pollution, formulate priorities, and plan for water quality management. The regularly considered parameters when conducting water quality monitoring are turbidity, pH, temperature, conductivity, dissolved oxygen, chemical oxygen demand, biochemical oxygen demand, ammonia, and metal ions. The usual method employed in capturing these water parameters is the manual collection and sending of samples to a laboratory for detection and analysis. However, this method is impractical in the long run because it is laborious and consumes a considerable amount of human resources. Sensors integrated into a mobile phone application interface can address this issue. This paper aims to design and implement an Internet of Things-based system comprising pH, temperature, and turbidity sensors, which are all integrated into a mobile phone application interface for a water monitoring system. This project utilizes the Bluetooth Standard (IEEE 802.15.1) for communication/transfer of data, while the water quality monitoring system relies on the pH, turbidity, and temperature of the test water.
Model for Water Quality Monitoring Based on Internet of Things
Zambia ICT Journal
In Lusaka, water pollution has been a problem for many decades, which has led to outbreaks of various waterborne diseases such as cholera, dysentery, and many more. In this research, we proposed a water quality monitoring system based on the Internet of Things (IoT). IoT relies on sensors to measure different parameters in water and report the results in real-time. The real-time information obtained from sensors through the IoT system can be used to warn users if there is any contamination in the water before the community gets infected. The deliverables for this research project are 1) Water quality monitoring using IoT sensors; 2) a dashboard to show water analysis from sensors, and 3) a mobile application to notify users should there be contamination of water. The results were obtained through the testing of water collected from various sources. Others results collected are dairy gold milk, undiluted Coolsplash juice and combination of other mixture. The results obtained show tha...
JISA(Jurnal Informatika dan Sains), 2021
This research aims to monitor the quality of water used for aquariums. The physical parameters used are water pH, water temperature, water turbidity, and water salinity. Using a pH sensor, temperature sensor, turbidity sensor, and salinity conductivity sensor with Arduino as the controller. The prototype method used in this research, starting from the formulation, research, building stages to testing and evaluating the results of the research. The working process of the system is when the system is activated, the sensors will detect and capture the amount of value contained in the water, then the data from the sensor is sent to a database in the cloud using an ethernet shield that is connected to the media router as a liaison for the internet network then displayed on the website dashboard in the form of graphs and monitoring record tables in real time. The sensors function to detect water quality, where quality standards have been set in this system, namely temperature standards of...
Low-Cost Internet-of-Things Water-Quality Monitoring System for Rural Areas
Sensors
Water is a vital source for life and natural environments. This is the reason why water sources should be constantly monitored in order to detect any pollutants that might jeopardize the quality of water. This paper presents a low-cost internet-of-things system that is capable of measuring and reporting the quality of different water sources. It comprises the following components: Arduino UNO board, Bluetooth module BT04, temperature sensor DS18B20, pH sensor—SEN0161, TDS sensor—SEN0244, turbidity sensor—SKU SEN0189. The system will be controlled and managed from a mobile application, which will monitor the actual status of water sources. We propose to monitor and evaluate the quality of water from five different water sources in a rural settlement. The results show that most of the water sources we have monitored are proper for consumption, with a single exception where the TDS values are not within proper limits, as they outperform the maximum accepted value of 500 ppm.
THE REAL TIME MONITORING OF WATER QUALITY IN IoT ENVIRONMENT
In order to ensure the safe supply of the drinking water the quality needs to be monitor in real time. In this paper we present a design and development of a low cost system for real time monitoring of the water quality in IOT(internet of things).the system consist of several sensors is used to measuring physical and chemical parameters of the water. The parameters such as temperature, PH, turbidity, conductivity, dissolved oxygen of the water can be measured. The measured values from the sensors can be processed by the core controller. The raspberry PI B+ model can be used as a core controller. Finally, the sensor data can be viewed on internet using cloud computing.
Water Quality Monitoring System Implemented With IoT
International Journal of Emerging Trends in Engineering Research, 2021
Monitoring the quality of water and its proper management is crucial for any industrial and economic application. The global shortage of water demands a sustainable solution to optimize its usage. The Internet of Things provides a robust and cost-effective solution for real-time monitoring of various parameters of water. The paper aims to implement an intelligent water quality monitoring system with the aid of IoT. The proposed system was successfully implemented to determine the turbidity, TDS, flow rate and the level of water for a given sample. The data obtained from the sensors are uploaded to the ThingSpeak dashboard for online monitoring purpose. Besides, an SMS alert is sent to the user whenever the turbidity and TDS values have crossed the threshold limit defined for good quality water.
IJERT-Towards Smart Water Quality Monitoring System for Urban Environment
International Journal of Engineering Research and Technology (IJERT), 2021
https://www.ijert.org/towards-smart-water-quality-monitoring-system-for-urban-environment https://www.ijert.org/research/towards-smart-water-quality-monitoring-system-for-urban-environment-IJERTCONV9IS08017.pdf The developing countries like India water is one of the most urgent concerns. In the current situation, people often place our healthcare in the hands of drinking water suppliers. Despite the fact that the water is purified and checked in central distribution stations, the manufacturer and people unaware the quality of water either in urban or rural areas.By focusing on the above problems, suggest a low-cost monitoring device that can use the Internet of Things to measure water quality such as pH (potential of Hydrogen) and conductivity in real-time. The water quality monitoring sensors detect the physical parameters that are needed. The microcontroller maps this value to the required water quality measure and stores it in a database through the Internet of Things. This allows providers to centralize routine water monitoring from various locations while still providing pure water to end users.
The Monitoring of Water Quality in IoT Environment
In order to ensure the safe supply of the drinking water the quality needs to be monitored in real time. In this paper, a design and development of a low cost system for real time monitoring of the water quality in IOT. The system consists of several sensors are used to measure physical and chemical parameters of the water. The parameters such as temperature, pH, turbidity, conductivity of the water can be measured. The measured values from the sensors can be processed by the core controller. The Raspberry Pi model can be used as a core controller. Finally, the sensor data can be viewed on internet using cloud computing.