CLASSIC 2.0 Air Monitoring Equipment Explained: Features, Benefits, and Industrial Applications

Summary: CLASSIC 2.0 from AirLogics is an advanced air monitoring equipment system designed for real-time field measurement of gases, dust, and weather conditions. It uses both a photo-ionization detector (PID) and field gas chromatograph (GC) for VOC detection, tracks particulate levels with precision. The system can be upgraded to handle other gases too, such as So2, H2S, and mercury. The system supports continuous outdoor air quality testing through integrated sensors and live data display for field analysis.

Air monitoring equipment is used to measure what is present in the surrounding ambient air at outdoor field locations. The CLASSIC 2.0 from AirLogics is designed to capture multiple air parameters in real time using one integrated setup. It is built to give clear field-level air data without delay, so users can understand air conditions as they change. The system combines gas detection, dust measurement, and weather tracking into a single platform. This structure reduces fragmented readings and supports continuous field observation using stable measurement outputs. Instead of using separate tools for each reading, everything is handled inside one system. AirLogics developed this unit for sites with comingled contamination and significant risk to nearby receptors. The focus is on simple data flow from sensors to the display, so field conditions are easy to read and understand.

VOC identification that switches between PID and GC

The CLASSIC 2.0 uses a field GC and PID. In total VOC mode the PID captures overall volatile organic compound levels in the air. This gives a broad view of how much organic gas is present in the environment at that moment.

Once levels reach a set trigger point, the system shifts into compound identification mode. It then isolates individual substances, such as benzene, for direct reporting. This switching function helps move from general air readings to a detailed breakdown without needing extra equipment or manual steps.

This dual function helps remove guesswork in VOC readings and gives clear breakdowns of what is present in the air at that moment. The system is designed to keep data simple, even when air composition changes quickly in field conditions.

Dust tracking is built on particle size separation

Dust measurement inside this system works through direct optical sensing. The unit reads airborne particulate matter (PM) using light response behavior instead of manual sampling methods. This allows continuous tracking of dust without stopping field activity.

It can separate readings into PM10, PM2.5, or total suspended particles. This allows field teams to understand how particle size distribution changes across different locations. Each size category shows a different type of airborne dust behavior.

This part of the system works continuously and updates readings in real time, giving a live view of particulate movement. The output helps show how dust levels rise or fall across different points in the field area.

Meteorological monitoring

The CLASSIC 2.0 includes a weather sensor that captures wind speed, wind direction, temperature, humidity and rainfall.   These basic weather inputs help explain how air moves across open space.

These inputs are processed into block averages that show how air moves across a field location. This makes it easier to understand where air is coming from and where it is going and helps connect air readings with movement patterns rather than showing isolated values. It gives a clearer picture of how gases and dust travel in the surrounding area.

Integrated system display through a single control interface

All collected data is sent to a connected tablet interface that shows live readings from each sensor group. This interface acts as the main view for all air information collected in the field.

The PID, GC , particulate sensors, and meteorological station all feed into one display. This reduces the need for separate systems or manual comparison between different devices.

AirLogics designed this setup so that field teams can view gas levels, dust concentration, and wind patterns together without switching systems. The layout is simple, so readings can be understood quickly without confusion.

Closing Note:

Outdoor air quality testing requires stable field instruments that can collect data without interruption. The CLASSIC 2.0 supports this requirement through continuous gas detection, dust tracking, and weather mapping in one system. AirLogics focuses on field monitoring systems that provide direct measurement output rather than delayed lab reporting. The CLASSIC 2.0 follows this approach by keeping all readings available in real time for immediate field review. This setup supports a clear understanding of outdoor air conditions across open environments where air movement can change quickly.

To learn more about CLASSIC 2.0 air monitoring equipment from AirLogics or to explore field deployment options, connect with our team. We provide system details, setup support, and field assistance for real-time air monitoring requirements.