Abstract:
The increasing demand for efficient water management in residential houses, hotels, and
hospitals necessitates innovative solutions to ensure reliable water storage while minimizing
waste and energy consumption. The goal of this project is to automate the process of transferring
water to storage tanks through the design and installation of a smart system for water supply
transfer pumps. The system is designed to keep water levels at ideal levels, minimizing the need
for human intervention and guaranteeing a steady supply of water under demanding situations.
Real-time water level monitoring and control are achieved by the smart water supply system
with the use of relays, water pumps, microcontrollers, and ultrasonic water level sensors. The
microprocessor receives data from the ultrasonic sensors, which measure the water level in
storage tanks, to decide when to turn on or off the water pumps. The pumps are triggered
automatically to replenish the tanks when the water level falls below a certain threshold. In a
similar vein, the pumps are turned off to prevent overflow and guarantee effective pump
performance when the water level hits the top limit. In settings like homes, hotels, and hospitals
where having access to clean water is essential, this system guarantees a steady and dependable
supply of water. Particularly in settings with high water demand, automating the water transfer
process minimizes human error, improves water conservation, and uses less energy. The
system's architecture ensures that it will consistently store water without the need for manual
modifications or frequent monitoring. In addition to increasing operational effectiveness, the
smart water supply system's deployment promotes environmentally friendly water management
techniques. For establishments that need stable and effective water storage solutions, it provides
continuous water availability and is a sensible and affordable option.
