Air Quality Monitoring System
An accurate, real-time, multiparameter ambient air quality monitoring system ideal for all industries.
Multiparameter Air Quality Monitoring System
POLLUDRONE
Polludrone is a versatile air quality monitor measuring multiple ambient parameters, including PM1, PM2.5, PM10, CO, CO2, SO2, NO2, O3, and H2S, along with Ambient Noise, Light, UV, Temperature, and Humidity. This multiparameter approach provides detailed insights into the environmental health of any premises, making it ideal for various applications. Whether monitoring neighbourhoods or managing large infrastructures, Polludrone is your all-encompassing solution, assuring optimal environmental conditions everywhere.
Polludrone packs a punch with features like integrated sensors enclosed in a single, compact, corrosion and vandalism-proof case, offering unmatched reliability. Including in-built calibration software, web-based software, and over 25 APIs ensures deep integration with your existing systems. Overall, it provides a convenient and seamless experience. Polludrone offers unmatched versatility and accuracy in data collection, whether it is about monitoring particulates or gasses.
Benefits of Using AQMS
Polludrone is designed with an ultra-modular approach to accommodate any existing infrastructure. This versatile dust monitor can be powered through multiple sources, including External AC or DC power, with the option of Solar Power.
Regarding data transmission, Polldrone exhibits remarkable flexibility, supporting a wide array of Wired and Wireless channels. It is equipped to communicate wirelessly using GSM, GPRS, 3G, WiFi, LORA, LTE, and SIGFOX technologies. It offers reliable Ethernet, Modbus, RS-485, and RS-283 options for wired connectivity.
The crucial data on ambient air particulates collected by Polludrone is efficiently transmitted to the Oizom Cloud, which can operate on either Shared or Private Infrastructure. This data is instrumental in powering diverse data solutions tailored to specific end applications.
Furthermore, Polludrone’s data can be vividly visualized and meticulously analyzed through the Envizom. The system allows for configuring intelligent dust alerts based on the data received from Polludrone. This data can also be leveraged to regulate various process equipment, enabling automated and efficient operational solutions.
The system can generate automated reports, enhancing the ease of documentation and analysis. Additionally, Polludrone’s data facilitates real-time air quality impact assessments, providing invaluable insights for effective management.
Features of our Air Quality Monitoring System
Patented Technology
Works on innovative e-breathing technology for higher data accuracy
Solar Powered
Capable of running independently on solar power
Network Agnostic
Wide range of connectivity options like GSM / WiFi / LoRa / NBIoT/ Ethernet
Over-The-Air Update
Automatically upgradeable from a central server without any onsite visit
Compact
Light-weight and compact system installed at 12-15 feet (3.5-5 m) height
Real-Time Data
Continuous monitoring and real-time data transfer at configurable intervals
Weatherproof
IP66 grade enclosure for endurance against harsh weather conditions
Calibration as per USEPA Guidelines
3-level calibration includes third-party nodal agency, reference station co-location & spot calibration
- Ultra Fine Particulate Matter (PM1) – UFPM
- Respiratory Suspended Particulate Matter (PM2.5) – RSPM
- Suspended Particulate Matter (PM10) – SPM
- Total Suspended Particulates (PM100) – TSP
- Carbon Monoxide (CO)
- Carbon Dioxide (CO2)
- Sulfur Dioxide (SO2)
- Nitrogen Dioxide (NO2)
- Nitrogen Oxide (NO)
- Ozone (O3)
- Hydrogen Sulfide (H2S)
- Ambient Noise
- Ambient Light and UV Radiation
- Temperature, Humidity, and Barometric Parameters
Our sensing technology works on proven working principles like NDIR, Electrochemical Analysis, Semiconductor, Optical Measurement, and Laser-Scattering. In addition, as a part of our proprietary ‘Micro Active Sampling’ (e-breathing technology), we have a sophisticated suction-and-exhaust system for air sample collection and monitoring inside a controlled environment. The technology isolates the external environment’s effect on measurement to achieve 13% higher accuracy than the industry standards.
Laser Scattering: The sensor emits a laser beam to diffract through the air sample collected in the equipment. Therefore, the intensity of the beam scattered from the particles provides particle size distribution and concentration data.
Electrochemical Analysis: The gaseous emission is treated electrochemically, where an external potential is applied. Hence, each species such as CO2, H2S, CH4 is identifiable depending on their oxidation or reduction potential.
NDIR: The gases emitted from the location undergo Nondispersive Infrared Radiation where the air sample comes in contact with the infrared radiation. Different gaseous molecules absorb IR at different frequencies. So, the amount of IR absorbed gives the volumetric concentration of each gaseous constituent.
The first one is by using our Air Quality Software – Envizom. It is equipped with below features:
- User-friendly interface
- Smart alerts and reports
- Real-time data
- Set thresholds to automate the integrated systems
- Easy to set up
Another way to access the dust data is using secured HTTP/MQTT APIs. The data can be published on Public Displays, Smart TVs, Websites (using widgets), and Mobile Apps by using the APIs
Polludrone Variants
The Polludrone air monitoring system has three variants available: Polludrone Lite, Polludrone Smart, and Polludrone Pro. These product variants are designed to target different applications and use cases. Check out all the details about these variants and choose what is best for your industry niche.
Do you know you can fully customize your air quality monitoring system with Oizom?
Schedule a call with our team of experts and get a customised solution for your air quality monitoring requirement.
Discover how Governments, Industries and Communities have benefited from Polludrone
Changing the way we monitor air quality
Contact us to learn more about our air quality monitoring systems and solutions.
How Our AQMS Works
Polludrone is designed with an ultra-modular approach to accommodate any existing infrastructure. This versatile dust monitor can be powered through multiple sources, including External AC or DC power, with the option of Solar Power.
Regarding data transmission, Polldrone exhibits remarkable flexibility, supporting a wide array of Wired and Wireless channels. It is equipped to communicate wirelessly using GSM, GPRS, 3G, WiFi, LORA, LTE, and SIGFOX technologies. It offers reliable Ethernet, Modbus, RS-485, and RS-283 options for wired connectivity.
The crucial data on ambient air particulates collected by Polludrone is efficiently transmitted to the Oizom Cloud, which can operate on either Shared or Private Infrastructure. This data is instrumental in powering diverse data solutions tailored to specific end applications.
Furthermore, Polludrone’s data can be vividly visualized and meticulously analyzed through the Envizom. The system allows for configuring intelligent dust alerts based on the data received from Polludrone. This data can also be leveraged to regulate various process equipment, enabling automated and efficient operational solutions.
The system can generate automated reports, enhancing the ease of documentation and analysis. Additionally, Polludrone’s data facilitates real-time air quality impact assessments, providing invaluable insights for effective management.
Product Video
Polludrone Video explains everything you need to know about our range of Air Quality Monitoring Systems. In addition, you may watch the Polludrone Video to understand its Capabilities in terms of Parameters, Working Principles, Communication Protocols, Power Requirements, and Data accessibility. It’s a 4-minute 19 seconds video covering all the essential aspects of Ambient Air Quality Monitoring.
Polludrone FAQs
Common air quality pollutants include:
- Particulate Matter (PM2.5 and PM10): Fine particles that can penetrate the lungs and affect heart and lung function.
- Nitrogen Dioxide (NO2): A reactive gas from vehicle exhausts, contributing to smog and acid rain.
- Sulfur Dioxide (SO2): A gas from fossil fuel combustion at power plants and industrial facilities that can cause respiratory issues and acid rain.
- Carbon Monoxide (CO): An odorless, colorless gas from incomplete combustion, dangerous at high levels.
- Ozone (O3): A gas that forms in the atmosphere from reactions between organic compounds and nitrogen oxides under sunlight.
- Volatile Organic Compounds (VOCs): Organic chemicals that can cause health problems like headaches and liver damage.
- Lead (Pb): A toxic metal released from industrial processes and previously, from leaded gasoline.
- Ammonia (NH3): A gas mainly emitted from agricultural processes.
Safe levels of air pollutants are set by regulatory bodies like the Environmental Protection Agency (EPA) in the U.S. and the World Health Organization (WHO) globally. These levels vary by pollutant, with standards set for the concentration of each substance that should not be exceeded to protect human health. For example, the WHO recommends PM2.5 not exceed an annual mean of 10 µg/m3 and a 24-hour mean of 25 µg/m3.
Monitoring air quality is essential to:
- Protect public health by reducing exposure to harmful pollutants.
- Identify the sources and patterns of pollution for targeted action.
- Inform the public and issue warnings on poor air quality days.
- Assess the effectiveness of regulations and control measures.
- Understand long-term trends and the impact of climate change.
Our air quality monitoring system uses a network of sensors to measure the concentration of various air pollutants continuously. These sensors are sensitive to specific types of pollutants and can provide real-time data on the air quality. This data is then processed and analyzed to provide insights and alerts, which can be accessed through a dashboard or mobile application.
Key features of our air quality monitoring system include:
- Real-Time Data Access: Via a user-friendly dashboard or API for easy integration with other systems.
- Customizable Alerts: To notify when pollutant levels rise above predefined thresholds.
- Data Analytics Tools: To track trends and forecast potential air quality issues.
- Durable Design: Capable of withstanding various environmental conditions.
- Smart Calibration: Ensuring that sensors remain accurate over time.
- Multi-Pollutant Detection: Ability to monitor multiple pollutants simultaneously.