Engineering and Technology
| Open Access |
DOI: Automation of a Solar Energy Powered Domestic Well-Water Treatment Plant
Fadiji, Ezekiel Adegoke , Department of Electrical Electronics Engineering, Bamidele Olumilua University of Education, Science and Technology, Ikere Ekiti, Nigeria.Abstract
Water automation is all about controlling, monitoring and even billing of water usage in different places like hotel, house, irrigation land and industry with less human effort. Water is precious gift to mankind and we need to preserve quality of this natural resource. This paper presents a model showing how efficiently water can be distributed in urban areas through pipelines and how corrosion of pipes driving water to individuals can be prevented along with theft identification system which shows theft of water from a particular pipeline by giving visual presentation. The researchers done water automation based on different purposes using different types of hardware and technologies. This paper develops an automatic domestic well-water supply distribution system and treatment plant which can monitor water tank by measuring the water flow, water level, water temperature, cut ON/OFF water supply and send notifications to the user through mobile messaging. All of the component like water level and flow switch was connected through an android application that is much more efficient and easier to control the whole process.
Keywords
Water automation, well-water treatment plan, mobile messaging, mobile application and android application
References
Ayamal Alinhussein and Mohammed Adedalati; (2021) “A Supervisory Control and Data Acquisition (SCADA) for water pumping station of GAZA”, The Islamic University Journal, Vol.19, Pp. 303-321.
Bargiela A., (2018). “On-line monitoring of water distribution networks,” Ph.D. dissertation, Durham University,
Cheng W., Yu T., and Xu G., (2021). “Real-time model of a large-scale water distribution system,” Procedia Engineering, vol. 89, Pp. 457–466,
Davidson J. and Bouchart F. C., (2017). “Adjusting nodal demands in SCADA constrained real-time water distribution network models,” Journal of Hydraulic Engineering, vol. 132, no. 1, Pp. 102–110.
Gowri, S., Pranathi, P., and Sravya, K; (2018). “Automated Water Tank Overflow Control Unit Integrated with Mobile Application,” International Journal on Information Sciences and Computing, vol. 9, no. 2, Pp. 10-12.
Mazharul Islam Nayeem, and Mahfida Amjad, (2018). “Water Automation for Water Pump Controller using Android Application – Review,” International Journal of Computer Applications 182(29): Pp. 34-38,
Powell, R., (2021) “State estimation in water networks: a tutorial,” Measurement and control, vol. 32, no. 4, Pp. 101–104,.
Raykar, M. M., Parijata Vinod, Parinita Vinod, Preethi K. M, and Jain L., (2020). “Automated Water Billing with Detection and Control of Water Leakage using Flow Conservation,” International Journal of Engineering Development and Research, vol. 3, issue 2, Pp. 285-287.
RamleelaKhare, Fillliperodrigues, and E. Mela; (2019). “Automation of water distribution plant”, International journal of Research in Engineering and Advanced Technology, Vol.2, Pp. 1-6.
Vrachimis S., Eliades D., and Polycarpou M., (2019) “Real-time hydraulic interval state estimation for water transport networks: A case study,” Drinking Water Engineering and Science, vol. 11, Pp. 19–24.
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Copyright (c) 2026 Fadiji, Ezekiel Adegoke
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