sprinkle sense-intelligent water-conserving irrigation system
The Sprinkle Sense Intelligent Water-Conserving Irrigation System is a student-friendly working model that uses sensors to automate irrigation based on soil moisture and environmental conditions. It promotes water conservation and sustainable farming, making it ideal for science projects and exhibitions.
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sprinkle sense-intelligent water-conserving irrigation system
Introduction
The Sprinkle Sense Intelligent Water-Conserving Irrigation System is a hands-on model designed to demonstrate smart irrigation techniques that optimize water usage. This innovative system uses sensors to monitor environmental conditions and automates the watering process, ensuring sustainable farming practices. It provides students with practical insights into advanced agricultural technologies.
Components and Materials
- Microcontroller (Arduino/ESP32/NodeMCU) – Controls the system based on sensor data.
- Soil Moisture Sensor – Measures the moisture level in the soil to determine watering needs.
- Rain Sensor (Optional) – Detects rainfall to avoid unnecessary watering.
- DHT11/22 Sensor – Monitors temperature and humidity for intelligent irrigation.
- Water Pump (AC or DC) – Distributes water through the sprinklers.
- Relay Module – Switches the pump on or off based on microcontroller commands.
- Sprinklers/Drip Tubes – Ensures even water distribution.
- Power Supply (Battery or Adapter) – Provides energy to run the system.
- LED Indicators – Displays the system’s operational status.
- Water Reservoir/Tank – Stores water for irrigation.
- PVC Pipes or Tubes – Channels water from the pump to the sprinklers.
- Foam Board/Sunboard – Provides a stable base for the working model.
- Connecting Wires – Connects all components for seamless functionality.
Working Principle
- Sensors continuously monitor soil moisture, environmental humidity, and rainfall.
- The data is processed by the microcontroller to determine the need for irrigation.
- If moisture levels are low and no rain is detected, the microcontroller activates the relay to power the water pump.
- Water is distributed through sprinklers, ensuring precise irrigation.
- Once the desired moisture level is reached or rain is detected, the system automatically stops, conserving water.
Circuit Diagram
The circuit includes:
- A microcontroller connected to soil moisture, rain, and DHT sensors.
- Relay module connected to the water pump.
- Power supply for all components. Detailed diagrams can be provided for assembly.
Programming
The microcontroller is programmed to:
- Read real-time sensor data.
- Compare moisture levels and environmental conditions to predefined thresholds.
- Automate the irrigation process based on conditions.
Testing and Calibration
- Test soil moisture sensors in different conditions for accurate readings.
- Calibrate the system to activate the pump only when necessary.
- Ensure sprinklers distribute water evenly over the intended area.
Advantages
- Conserves water by optimizing irrigation.
- Reduces manual labor and energy consumption.
- Introduces students to IoT-based smart farming.
Disadvantages
- Requires technical knowledge for setup.
- May need maintenance for long-term use.
Key Features
- Intelligent irrigation using multiple sensors.
- Fully automated and energy-efficient.
- Scalable and adaptable for larger systems.
Applications
- Ideal for science projects and exhibitions.
- Demonstrates modern farming practices in classrooms.
- Can be scaled for use in gardens or small-scale agriculture.
Safety Precautions
- Handle electrical components with care to prevent short circuits.
- Keep water away from the electronics.
- Ensure stable connections to avoid malfunctions.
Conclusion
The Sprinkle Sense Intelligent Water-Conserving Irrigation System is a practical and educational model that equips students with knowledge about sustainable agricultural techniques. It is a perfect blend of technology and environmental responsibility, showcasing the importance of smart irrigation in modern farming.
Weight | 1.45 kg |
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Dimensions | 26 × 26 × 20 cm |
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