The goal is to create a real-time water quality monitoring system using IoT technology. The system measures key water quality parameters and provides real-time data for analysis and decision-making.
Key Features:
- IoT Integration: Uses ESP32 to connect the system to the internet, enabling real-time monitoring via a cloud platform.
- Water Quality Parameters: Monitors temperature, pH levels, turbidity, and Total Dissolved Solids (TDS) in real-time.
- Data Display: Includes an LCD 20x4 I2C display for local real-time data viewing.
- Data Visualization: Displays data on a web dashboard for easy analysis.
- Mobile Access: Remote monitoring through a mobile app or web interface.
Hardware Components:
- ESP32: Microcontroller with Wi-Fi capability for IoT integration.
- pH Sensor: Measures the acidity or alkalinity of the water.
- Temperature Sensor: Tracks the water temperature.
- Turbidity Sensor: Measures water clarity.
- TDS Sensor: Measures the total dissolved solids (salts, minerals, etc.) in the water.
- LCD 20x4 I2C: Displays real-time water quality data locally.
- Power Supply: Battery-powered or solar-powered for remote deployments.
How It Works?
- Data Collection: Sensors measure water quality parameters (pH, temperature, turbidity, TDS).
- Local Display: Real-time sensor data is displayed on the LCD 20x4 I2C screen.
- Data Transmission: The ESP32 sends the collected data to the cloud via Wi-Fi.
- Data Visualization: Data is displayed on a web dashboard and mobile app for remote monitoring.
- Alerts: Threshold-based alerts are triggered if any parameter exceeds the acceptable range.
Applications:
- Environmental Monitoring: Track water bodies, lakes, and rivers for pollution levels.
- Agriculture: Monitor water quality for irrigation and aquaculture.
- Industrial: Ensure compliance by tracking water quality in industrial discharge.
Dimensions: 15cm X 10cm X 10cm.
IoT Based Water Quality Monitoring
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