Solar Aqua Guard: A Next-Gen IoT Approach to Water Tank Monitoring


Authors : Sabeena K.; Haseena P. Y.

Volume/Issue : Volume 8 - 2023, Issue 11 - November

Google Scholar : https://tinyurl.com/2ae5umn7

Scribd : https://tinyurl.com/3z7p752m

DOI : https://doi.org/10.5281/zenodo.10148767

Abstract : Water is an essential element of life, we must take measures to conserve water resources and ensure the water quality that we receive. The primary objective of our project is to develop a modular and user-friendly system that enables real-time monitoring and dissemination of water quality data to consumers. The system incorporates arduino, automatic water flow control, sensors and a wireless communication module to achieve this goal. The system operates by collecting water quality parameters through the deployed sensors. These sensors measure key parameters such as pH, turbidity, temperature and TDS, which are crucial indicators of water quality. The collected data from the sensors is then transmitted to the arduino. To ensure seamless and real-time communication, the system incorporates a WiFi wireless transmission module. This module facilitates the transmission of the processed water quality data from the controller to a remote management platform or server. The data is securely uploaded to the server via WiFi connectivity, allowing for immediate access by authorized users. This user interface provides a convenient means for users to receive, query,and visualize the monitoring data. Users can access the latest water quality information, view historical trends and set up customized alerts or notifications to be promptly informed of any significant changes or potential water quality concerns. Overall our project develops a modular IoT-based system that seamlessly integrates sensors, arduino, and wireless communication to enable real-time monitoring and dissemination of water quality data. By providing users with easy access to this information, we aim to enhance awareness, empower decision-making, and promote proactive measures for water quality management.

Keywords : iot; water tank; solar;smart;

Water is an essential element of life, we must take measures to conserve water resources and ensure the water quality that we receive. The primary objective of our project is to develop a modular and user-friendly system that enables real-time monitoring and dissemination of water quality data to consumers. The system incorporates arduino, automatic water flow control, sensors and a wireless communication module to achieve this goal. The system operates by collecting water quality parameters through the deployed sensors. These sensors measure key parameters such as pH, turbidity, temperature and TDS, which are crucial indicators of water quality. The collected data from the sensors is then transmitted to the arduino. To ensure seamless and real-time communication, the system incorporates a WiFi wireless transmission module. This module facilitates the transmission of the processed water quality data from the controller to a remote management platform or server. The data is securely uploaded to the server via WiFi connectivity, allowing for immediate access by authorized users. This user interface provides a convenient means for users to receive, query,and visualize the monitoring data. Users can access the latest water quality information, view historical trends and set up customized alerts or notifications to be promptly informed of any significant changes or potential water quality concerns. Overall our project develops a modular IoT-based system that seamlessly integrates sensors, arduino, and wireless communication to enable real-time monitoring and dissemination of water quality data. By providing users with easy access to this information, we aim to enhance awareness, empower decision-making, and promote proactive measures for water quality management.

Keywords : iot; water tank; solar;smart;

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