Indoor Air Quality Monitoring or Testing (IAQ) is an essential process to determine the level of contaminants present in indoor air which can affect productivity & well-being of occupants. Good and healthy Air Quality at the workplace can increase worker's comfort, productivity and well-being.Cohesion’s Indoor Air Quality Program allows building owners and operators to deliver a healthy building to occupants by monitoring pollutants and optimizing to remove the pollutants in real time. In this project we are going to make an Air Pollution Monitoring and optimization system in which we control the appropriate device based on sensor data and which we monitor the Air Quality parameters on LCD display.The project makes a use of Arduino microcontroller and to measure the air quality using sensors such as dht11(temperature and humidity) sensor,pm2.5 dust particle sensor, co2 sensor. The main controlling device of the project is Arduino UNO microcontroller. Dht11 sensor,pm2.5 sensor, co2 sensor, mist maker, fan, exhaust fan, heater, air ionizer, air inlet and LCD display is interfaced to the Arduino. Arduino continuously read the data from sensors and will be display on LCD module. Based on the sensor data Arduino will control the specific device through driver circuits to maintain the airthe air quality, especially as it relates to the health and comfort of building occupants. To achieve this task microcontroller loaded program written in embedded C language.

 

The features of the project are:

• Continuous Air pollution monitoring.
• Monitoring sensor data on LCD display.
• Temperature based automatic fan and heater control.
• 5 based automatic control of air ionizer to remove small particles in the air.
• Humidity based automatic mist maker and air inlet control.
• Co2 based automatic exhaust fan speed control.
• To achieve this task using Arduino UNO microcontroller.

The main blocks of this project are:

• Power Supply.
• Arduino UNO.
• Co2 sensor.
• 5 sensor.
• DHT11 Sensor.
• LCD display. 
• Exhaust fan.
• Mist and air inlet.
• Air ionizer.
• Heater.
• Fan.
• Relays.
• Driver circuits.

Software’s used:

1. Arduino IDE Studio Compiler for Embedded C programming.
2. Express SCH for Circuit design.

       

   

Block diagram of the project:  

   

     

 

video: