Journal of Advance Research in Mobile Computing (e-ISSN: 3048-8893)

The ”Sustainable water quantity monitoring and pH analysis using IoT” project is designed to enhance water management and quality control in both urban and rural settings through the integration of advanced flow sensors and pH sensors. This system enables precise measurement of water usage within an entire multi-storeyed building, tracking the consumption of individual users if the building is used by or rented out to many families or persons, and alerting the users who exceeds set limits. It also monitors the water level in the rooftop tank, automatically activating a ground-level pump when supplies run low. The accompanying app features dual interfaces for login, allowing both administrators and users to access data on water usage and pH levels. Administrators can view overall usage and pH statistics, while individual users can track their personal consumption and water quality, promoting responsible usage and ensuring water safety.

Koech, Richard, and T. Randall. ”Smart water metering technology for water management in urban areas.” (2019).

Ashwini Doni, Murthy M V ”Water Quality Monitoring System Using IOT,” 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bioinformatics (AEEICB), Chennai, India, 2018, pp. 1-5, doi: 10.1109/AEE- ICB.2018.8480963.

Sridharan, Shruti. ”Water quality monitoring system using wireless sensor network.” International Journal of Advanced Research in Electronics and Communication Engineering (IJARECE) 3.4 (2018): 399-402.

Xu, Z., Shen, J., Qu, Y., Chen, H., Zhou, X., Hong, H., ... Wu, F. (2022). “Using simple and easy water quality parameters to predict trihalomethane occurrence in tap water”. Chemosphere, 286, 131586.

Saalidong, Benjamin M., et al. "Examining the dynamics of the relationship between water pH and other water quality parameters in ground and surface water systems." PloS one 17.1 (2022): e0262117.

Patil, Kiran, et al. "Monitoring of turbidity, pH & temperature of water based on GSM." International journal for research in emerging science and technology 2.3 (2015): 16-21.

Rahim, Herlina Abdul, et al. "Water quality monitoring using wireless sensor network and smartphone-based applications: A review." Sensors & Transducers 209.2 (2017): 1.

Wang, Bill B. "Research on drinking water purification technologies for household use by reducing total dissolved solids (TDS)." Plos one 16.9 (2021): e0257865.

Behmel, Sonja, et al. "Water quality monitoring strategies—A review and future perspectives." Science of the Total Environment 571 (2016): 1312-1329.

Hameed, M. Shahul, et al. "Realtime monitoring system for surface water quantity and analyzing of water quality using microcontroller." Journal of Pharmaceutical Negative Results (2022): 442-447.