Intelligent Water Level Management Network
The Intelligent Water Level Management Network is a student project that demonstrates automated water control using sensors and microcontrollers. The system monitors water levels in tanks or reservoirs and activates pumps to maintain optimal levels, preventing overflow or shortages. This model illustrates smart water management, conservation, and sustainable technology, making it ideal for projects on environmental science and IoT applications.
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Intelligent Water Level Management Network
Project Description:
The Intelligent Water Level Management Network is a student project designed to demonstrate an automated water management system for reservoirs, tanks, and agricultural use. This model uses water level sensors, a microcontroller, and automated pumps to monitor and control water levels efficiently. When water levels reach a critical low or high point, the system activates pumps to either add or remove water, maintaining an optimal level. This smart management system showcases how technology can contribute to water conservation and efficient water usage, making it ideal for environmental science and engineering projects.
How It Works:
- Water Level Sensing: Water level sensors are placed in the reservoir or tank to continuously monitor the water level. These sensors send data to a microcontroller, which interprets the level as high, low, or optimal.
- Automated Water Control:
- When the water level falls below a pre-set low threshold, the microcontroller activates a pump to refill the tank.
- When the water level reaches the high threshold, the system stops the pump, preventing overflow.
- Network Communication: This model can simulate a network where multiple tanks or reservoirs communicate water levels with a central control system. This helps in managing multiple water sources and ensuring balanced distribution.
Key Components:
- Water Level Sensors: Monitors water levels in the tank or reservoir.
- Microcontroller (e.g., Arduino): Processes data from sensors and controls pump activation.
- Relay Module: Acts as a switch to control the water pump based on sensor readings.
- Water Pump: Adds or drains water as required to maintain levels.
- Connecting Wires and Power Supply: To connect and power the components.
Educational Value: This project teaches students about water conservation, automation, and smart infrastructure. It demonstrates how IoT and sensor-based technology can address real-world challenges in water management, making it perfect for learning about sustainable solutions in agriculture, urban planning, and environmental protection.
Weight | 1.75 kg |
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Dimensions | 26 × 26 × 20 cm |
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