Geyser Thermostat Monitoring
The paper showed how an intelligent water geyser device was built. The objective of implementing our intelligent geyser device is to maximize energy usage and thus measure the heating time for each consumer. It also offers a cheap alternative to current solutions. But not maximizing the use of water
2025-06-28 16:27:29 - Adil Khan
Geyser Thermostat Monitoring
Project Area of Specialization Computer ScienceProject SummaryThe paper showed how an intelligent water geyser device was built. The objective of implementing our intelligent geyser device is to maximize energy usage and thus measure the heating time for each consumer. It also offers a cheap alternative to current solutions. But not maximizing the use of water is one of the big pitfalls. A design that will minimize water use would have an enormous effect and make the device more customer-friendly. In addition to the threshold time, the time will vary depending on the user, and we do not handle the subject either. It doesn't cost too much money to implement, run and monitor the smart geyser system. The device proposed will benefit rural and urban residents. The design is also accurate since the user has to set the time and temperature every day and instead watches them and reacts dynamically by observing previous inputs, due to the user's behavior. This concept can be quickly adapted and improvised if this device is known to be used in mass manufacturing.
Project ObjectivesThe objective of this project is the use of manual water heaters, thermostat location, and water set-point temperatures, which must be streamlined to make reliable and cost-effective use of these devices. The effect of positioning the thermostat at three separate elevations is examined experimentally, namely close to the floor, center, and top of an MHW Manual water heater. Furthermore, the effect on the efficiency of the MWH manual water heater is explored experimentally by the temperature change of the thermostat near the base of the tenue.
Project Implementation MethodThe Machine learning base weather prediction for geyser Temperature controlling, this method is widely being used in different regions however now methods of prediction through machine learning is being introduced. Because water heating is a basic activity of our everyday life, water geysers have become effective technology. Water geysers are used to heat water heat to natural temperature thermodynamically. Its use includes dressing, shaving, cooking, and many places. The main problem is to make the device cheaper yet effective, convenient but not as mistaken to corroborate popular demand. We have to develop a framework that will provide us with precisely how we want it to be, so we can maintain its efficiency and expense. We documented such a device in this article, where we receive an intelligent water geyser that combines electrical efficiency and intelligence. We examined the interactions between the human body and the water heating system in various temperature ranges according to the need of an individual. We have therefore avoided the possible undesirable effects of the plumbing system which is overheated and less temperature tolerant. The outburst of pipes due to overheating was controlled by this method.
Benefits of the ProjectThe project aims to develop a smart geyser by automatic enabling according to the outside temperature. The hardware consists of a 6L geyser, Dry cells, LGP cylinder, node MCU, DHT11 sensor, relay module, and solenoid valve.
As soon as the connections are set up, the automation system is enabled. The temperature sensor determines the current temperature of the atmosphere and if it is found to be below 25C, the water flows to the Geyser through a solenoid valve controlled by a Relay module. Similarly, for summers, the solenoid valve will block the cold water input to the geyser and it will not operate, thus giving a smart geyser.
Technical Details of Final DeliverableThe technical details of the project are as follows:
1) Arduino is an open-source hardware and software company, project, and user community that designs and manufactures single-board microcontrollers and microcontroller kits for building digital devices.
2) A Temperature Sensor is the instrumentation hardware that is utilized to quantify temperature or warmth on the working machine part.
3) ESP8266 chip is a chip made for wife connectivity. ESP module will be used for online base communication VIA Wifi.
4) The relay module is a separate unit that is used to move remote machines.
5) A gas cylinder is a vessel for storing and containing gases at high air pressure. Often named bottles are high-pressure gas containers.
Final Deliverable of the Project HW/SW integrated systemCore Industry ManufacturingOther IndustriesCore Technology Internet of Things (IoT)Other TechnologiesSustainable Development Goals Responsible Consumption and Production, Climate ActionRequired Resources| Item Name | Type | No. of Units | Per Unit Cost (in Rs) | Total (in Rs) |
|---|---|---|---|---|
| Total in (Rs) | 59300 | |||
| Geyser | Equipment | 1 | 18000 | 18000 |
| Tools and Microcontroller | Equipment | 10 | 2780 | 27800 |
| Plumber Cost | Equipment | 10 | 500 | 5000 |
| Cylinder | Equipment | 1 | 3500 | 3500 |
| others | Miscellaneous | 5 | 1000 | 5000 |