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Study on automatic water level detection process using ultrasonic sensor
A Djalilov 1 , E Sobirov 1 , O Nazarov 1 , S Urolov 2 and I Gayipov 3
Published under licence by IOP Publishing Ltd IOP Conference Series: Earth and Environmental Science , Volume 1142 , 3rd International Conference on Energetics, Civil and Agricultural Engineering 2022 13/10/2022 - 16/10/2022 Online Citation A Djalilov et al 2023 IOP Conf. Ser.: Earth Environ. Sci. 1142 012020 DOI 10.1088/1755-1315/1142/1/012020
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1 Department of Electrical Engineering and Mechatronics, "Tashkent Institute of Irrigation and Agricultural Mechanization Engineers" National Research University, 100000 Tashkent, Uzbekistan
2 Faculty of Electronics and Automation, Tashkent State Technical University, Tashkent, Uzbekistan
3 Department of Electrical Engineering and Metrology, Karakalpak State University Named After Berdakh, 230115 Nukus, Uzbekistan
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Currently, we live in a world where all fields are developing very rapidly. In particular, the field of water management is developing day by day, and the water supply system is being intelligent automated. Nevertheless, mechanical means and human labor are used to monitor the water level in many water management facilities of our region. This situation causes many problems in the automatic management of the system. In this article, we will consider the process of automating the measurement and control of water level, that is, an automated system that helps to know when the water in the tank is full or empty. In the automation of this system, an ultrasonic sensor that meets the requirements of the time was used. The working principle of ultrasonic sensors is based on the movement of ultrasonic waves over time. The analysis of the results of this experiment showed that the water level measurement and control system did not make more than 1.5% error in different values of the water level. This situation showed that the developed system can be effectively used in all water level control facilities.
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Intelligent Water Level Monitoring System Using IoT
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Techno-Societal 2016, International Conference on Advanced Technologies for Societal Applications
ICATSA 2022: Techno-societal 2022 pp 147–153 Cite as
Continuous 24*7 Water Supply System: A Review of Literature
- Nitin P. Sonaje 9 ,
- Mukund M. Pawar 10 &
- Nitin D. More 10
- Conference paper
- First Online: 23 September 2023
154 Accesses
Modern improvements in water analysis methods have highlighted the many advantages of a continuous water distribution system over an intermittent water supply system. Early studies in this discipline mostly focused on case studies that described the difficulties and benefits of putting continuous water delivery systems in place. These studies gave important information about the process of implementation, budgetary considerations, and how people responded to the altered water supply system. In order to identify leaks and enhance water quality, the leakages were analysed using a representative sample of water from the end user’s water tap that was tested for chlorine and turbidity monitoring.
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Joshi, M. W., Talkhande, A. V., Andey, S. P., & Kelkar, P. S. (2002). Urban community perception towards intermittent water supply system. Indian Journal of Environmental Health, 44 (2), 118–123.
Google Scholar
Dahasahasra, S. (2008). Transforming intermittent into continuous water supply system-badlapur case study. In International Conference on Achieving 24 × 7 Continuous Water Supply. Indian Water Works Association. Mumbai Repeated.
Gohil, R. N. (2013). Continuous water supply system against existing intermittent supply system. IJSRD - International Journal for Scientific Research & Development, 1 , 109–110.
Patil, M. N. B., & Deulkar, W. N. Quality management of water supplies under 24 × 7 schemes. At sector NO. 21, PCMC, PUNE.
Rajeshwari, R., & Kumar, D. B. M. (2014). Evaluation of intermittent water supply system and design of 24x7 for a residential area in Mysore, Karnataka, India. International Journal of Informative & Futuristic Research, 1 (11), 163–173.
Vassiljev, A., & Puust, R. (2016). Decreasing leakage and operational cost for BBLAWN. Journal of Water Resources Planning and Management, 142 (5), C4015011.
Article Google Scholar
Stokes, C. S., Simpson, A. R., & Maier, H. R. (2015). A computational software tool for the minimization of costs and greenhouse gas emissions associated with water distribution systems. Environmental Modelling and Software, 69 , 452–467.
Ghorpade, A., & Vaidya, D. (2018). Experimental study of hydraulic modeling of water distribution network with pressure driven approach. International Journal of Innovative Research in Science, Engineering and Technology, 7 (8), 9105–9246.
Mallikarjun, S., Jyothi, D., Manjureddy, K., Sandhya, H., & Anand, S. (2016). Design of 24x7 water supply system for Ranebennur Town. International Journal of Innovative Research in Science, Engineering and Technology, 5 (6), 10051–10055.
Mavi, T., &Vaidya, D. R. (2018). Study and design of 24/7 water supply distribution system by watergems. Journal Homepage 7 (3). http://www.ijesm.co.in
Varu, S., & Shah, D. (2018). Design of 24 × 7 water supply systems - a case study: Ahmedabad City. Drink. Water Engineering Science Discuss . [preprint], https://doi.org/10.5194/dwes-2018-14
Mallick, R. K., Choudhary, M., & Nagar, B. (2020). Study on efficient 24*7 water distribution systems – a case study of Jhunjhunu. Tathapi (UGC Care Journal) , 19 (15), 142–152. ISSN: 2320-0693.
Pawar, M. M., & Sonaje, N. P. (2021). Converting traditional water supply network into 24*7, using water GEMS to optimize design. International Journal of Recent Technology and Engineering, 10 (1). ISSN: 2277-3878.
Jaiswal, A. K., Thakur, P. K., Kumar, P., & Kannaujiya, S. (2021). Geospatial modeling of water supply distribution system: A case study of Dehradun City, India. H2Open Journal, 4(1) 393–412. https://doi.org/10.2166/h2oj.2021.118
Tawalare, A., & Balu, Y. (2016). Performance evaluation of implementation of continuous water supply projects: Two case studies from India. Procedia Engineering, 161 , 190–194.
Mohapatra, S., Sargaonkar, A., & Labhasetwar, P. K. (2014). Distribution network assessment using EPANET for intermittent and continuous water supply. Water Resources Management, 28 , 3745–3759.
Kumpel, E., & Nelson, K. L. (2013). Comparing microbial water quality in an intermittent and continuous piped water supply. Water Research, 47 (14), 5176–5188.
Taha, A. W., Mahardani, M., Sharma, S., Arregui, F., & Kennedy, M. (2020). Impact of float-valves on water meter performance under intermittent and continuous supply conditions. Resources, Conservation and Recycling, 163 , 105091.
Chauhan, S., & Belokar, R. M. (2022). Conversion of intermittent water supply to continuous water supply of Chandigarh: A case study. In Proceedings of Third International Conference on Computing, Communications, and Cyber-Security: IC4S 2021 (pp. 21–36). Singapore: Springer Nature Singapore.
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Government Polytechnic, Miraj, Maharashtra, India
Nitin P. Sonaje
SVERI’s College of Engineering, Pandharpur, Maharashtra, India
Mukund M. Pawar & Nitin D. More
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SVERI’s College of Engineering, Pandharpur, Pandharpur, Maharashtra, India
Prashant M. Pawar
Babruvahan P. Ronge
Ranjitsinha R. Gidde
Meenakshi M. Pawar
SVERI’s College of Engineering (Polytechnic), Pandharpur, Pandharpur, Maharashtra, India
Nitin D. Misal
Anupama S. Budhewar
SVERI’s College of Pharmacy, Pandharpur, Pandharpur, Maharashtra, India
Vrunal V. More
Amity University, Dubai, United Arab Emirates
P. Venkata Reddy
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Sonaje, N.P., Pawar, M.M., More, N.D. (2024). Continuous 24*7 Water Supply System: A Review of Literature. In: Pawar, P.M., et al. Techno-societal 2022. ICATSA 2022. Springer, Cham. https://doi.org/10.1007/978-3-031-34644-6_16
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Published : 23 September 2023
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The water level sensor was designed, the level was detected and was sent to microcontroller which processed the data and further action of pumping was done. In addition, web based water level monitoring was achieved [7]. The water level control system was designed using two different methods one is PID and the other is fuzzy controller in LABVIEW.
literature review protocol is proposed, Section3illustrates the taxonomy and its analysis, Section4bibliography, and lastly, Section5the conclusion. 2. Systematic Review Protocol This study used a systematic literature review (SLR) to analyses the topic of water quality monitoring and inspection in detail. An extensive, thorough review of the ...
The implemented system was very basic in nature consisting of IoT devices using sensors for water level monitoring in a smart home. In 2017, Malche et al. [20] presented an IoT based system for water level monitoring for the smart village. The main objective of the proposed system was to monitor the real-time water level from a distant location.
In this section, all the IoT-based water monitoring designs, and solutions without utilizing artificial intelligent methods are included. This section consists of forty ( n = 40) articles, and it includes four sub-sections; efficiency optimization, water analytics, system design, and system development. 3.2.1.
In this paper, we investigate the design of a water level sensor device that is able to detect and control the level of water in a certain water tank or a similar water storage system. The system firstly senses the amount of water available in the tank by the level detector part and then adjusts the state of the water pump in accordance to the water level information. This electronic design ...
the pump when the water level is minimum and allows it to run until it is reached the maximum level in the tank. In this system the fluid level sensor is a magnetic field response sensor. A measurement acquisition method for acquiring measurements from magnetic field response sensors is presented. Water level control systems based on fuzzy ...
Issues such as climate change, water scarcity, population growth, and distribution losses have stimulated the use of new technologies to manage water resources. This is how the concept of smart water management emerged as a subcategory of the concept of smart cities. This article aimed first to identify the applications of smart water-management systems described in academic articles either as ...
1.2 Literature Review. ... The transfer function between the water level of tank 2 and the control input to the pump is found. A combination of both physical laws and data driven approach is used to determine the parametric uncertainties in interval form. ... The application of fuzzy PID controller in coupled-tank liquid-level control system ...
1 Introduction. Liquid level control in an interconnected tank system is an integrated part of most of the process industries such as chemical industries, oil refinery, power plant, water treatment, food processing, distillery plants. The main purpose of the liquid level control is to maintain a desired level of liquid in the tank that depends ...
Literature Review: Real Time Water Quality Monitoring and Management. Conference paper. First Online: 05 January 2021. pp 923-929. Cite this conference paper. Download book PDF. Download book EPUB. Deepika Gupta, Ankita Nainwal &.
5. To create an alarm system which will notify the base station in case the water level rises 6. To determine the values for the threshold of each river cross section 3. REVIEW OF RELATED LITERATURE Flashfloods have become one of the most dangerous and destructive calamities in most parts of the world. It
Similarly to the aforementioned literature, ... automated water level control system. ... C. M. A Review on Water Level & Quality Monitoring System. Global J Res Eng Comput Sci. 2022; 2(3), 13-17
III. LITERATURE REVIEW [1] This paper has an implemented Automatic water level control system consisting of arduino to automate the process of water pumping in a tank and has the ability to detect the level of water in a tank and switches ON or OFF the pump accordingly and displays the status on the LCD screen. The system also monitors the level of
In industry, the water level control problem is a typical process control problem, and has been extensively studied in the literature. This report focuses on the design and implementation of a PLC-based water level control system. In this project, we have two primary objectives: the overall mechanical design of the system, and the
This work is presenting a water level control and monitoring system in a tank, by using the development boards Arduino Uno, NodeMCU ESP8266 and the ultrasonic sensor HC-SR04.
In this article, we will consider the process of automating the measurement and control of water level, that is, an automated system that helps to know when the water in the tank is full or empty. In the automation of this system, an ultrasonic sensor that meets the requirements of the time was used. The working principle of ultrasonic sensors ...
Features of the proposed System: Generate reports -The system can generate report about the forecast of the water level can be. filtered by dates and also the generated report is in a view only ...
1.4.1 Real-Time Monitoring of Water Networks. Water network monitoring refers to continuously observing water quantity and quality. Real-Time quantity monitoring allows to detect and isolate water leaks and other faults affecting the sensors (flow meters, pressure meters, etc.) and the actuators (pumps, valves, etc.).
Reservoirs are usually multi-purpose systems, serving power plants, irrigation districts, urban and industrial water users, as well as contributing to other targets like flood control, environmental management, navigation, water quality, etc. Traditionally, reservoir control is implemented by a human operator that can act based on static rule curves or control actions suggested by a Decision ...
Ever since the evolution of earth, water management has become one of the crucial factors for human survival. In evolving years, significant efforts have been put to come up with solutions based on IoT technology for areas such as water level measurement. The main issue that is being addressed in this work is about developing an efficient level sensor based water monitoring system that ...
Dam monitoring usually involves environmental variables (e.g., the water level and temperature) and effect variables (deformation, cracking, seepage, etc.). The associated monitoring data can reflect the trends in these variables over time and are important information for managers to understand the operational status of a dam.
the data on water level to controlling the dam gates. The ultrasonic sensor is used to measure the water level. As the water level reaches the first sensor message is displayed in the LCD for the admin. when the water level reaches the second sensor, the dam gate is opened in half and an alert message is displayed on the LCD to the admin.
Transforming this chaotic distribution system into a well-disciplined and properly designed system is the mission of 24*7 supply system. Continuous 24*7 water supply systems are gaining popularity due to uninterrupted water supply to the consumers. The literature review discusses the following aspects of the continuous 24*7 water supply system.