Anti-Air Pollution System

Unconventional Air Purification System Along with Weather Prediction for Farmers

• Problem Statement 1

India is one of the countries which has been highly polluted and the many cities rank in top 10 of highly polluted cities worldwide.

Major contributors to pollution around Delhi and Delhi-NCR region are mostly burning of domestic/farm waste and commonly industrial factors.

Therefore, the objective of our prototype is to combat the ongoing problem of air apocalypse.

The present models of air purifiers present in market are only able to purify air up to certain extent by filtering pm2.5 and pm10 but our air contains various disease causing organic and acidic compounds. Also, the present air purifiers are not efficient if kept in open places. More-over as experimented by the government, the standing tower air purifiers has also failed in areas of Delhi.

We achieve the objective keeping in mind the economic factors, mass implementation ideas and the existing market models of air purifier so as to get access to cleaner air.

METHODOLOGY

COMPONENTS REQUIRED

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AIR PURIFIER

1. Medium Sized Cuboidal Structure With 3 Compartments
2. Transparent Pipe
3. Air Pump
4. Plain Water
5. Bubble Generator

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ARTIFICIAL INTELLIGENCE & OTHER SERVICES FOR AIR PURIFIER

1. Data from Servers of Air Matters
2. Ubuntu/Windows Platform
3. Blynk Cloud 4 MongoDB Database
4. Datasets from data.gov.in
5. Anaconda Virtual Environment & Python
6. JLCPCB
7. EasyEDA

• Renewable Power Supply Controller:

1. Arduino NANO
2. P-MOSFET
3. Power Diode for 10A and IN5402 for 2A current
4. Buck Converter
5. Temperature Sensor (LM 35)
6. Current Sensor (ACS 712)
7. TVS Diode
8. Transistors
9. Resistors (100k * 2, 20k * 2, 10k * 2, 1k * 2, 330ohm * 5)
10. Ceramic Capacitors (0.1uF * 2)
11. Electrolytic Capacitors (100uF & 10uF)
12. 20 *4 I2C LCD
13. RGB LED
14. Bi-colour LED
15. Jumper Wires
16. Header Pins
17. Heat Sink
18. Fuse Holder & Fuses
19. Push Buttons

WORKING OF AIR PURIFIER

1. The impurified air from atmosphere enters the bottle 1 containing plain water using an air pump which cleans the particulate matter from air, since dust particles like pm2.5 and pm10 get dissolved in water.
2. This air now enters bottle 2. The organic compounds get dissolved here.
3. Now, the air enters bottle 3, the air consists of numerous acidic compounds react with these acidic compounds causing a neutralizing effect resulting in formation of a salt.

• Note: all the bottles contain foam which helps in creation of tiny bubbles, these bubbles are an indication of purification of air.

1. The small-scale model of this would be placed in vehicles and be powered by the vehicle's batteries.
2. A regulator is present which will regulate the intensity of work done by the pump, the regulator will be commanded by AI.
3. Therefore, wherever the vehicles fitted with air purifiers travel, they will clean the air of that particular area depending on the areas AQI levels ### Basic Workflow (Without much A.I. Technicalities)

ROLE OF ARTIFICIAL INTELLIGENCE

IN AIR PURIFIER

1. The collected data from the servers will be processed
2. The AI will then use it to predict the areas where AQI levels are likely to rise.
3. The AI won't only do this, a regulator attached to the air pump, will be controlled by it.
4. The regulator will be switched on the basis of the current AQI where the vehicle will be placed.