Revolutionizing environmental surveillance through cutting-edge greenhouse gas solutions.
The T-I Max AIR Features
- Powerful Cavity Ring-Down Spectroscopy (CRDS) Capabilities
- High-precision detection of CO2, CH4, and H2O in real-time, down to parts per billion (ppb)
- Specificity – resistant to common interferences
- Easy to use and low ownership costs
- Automatic reporting of the dry mole fraction
With regard to methane, carbon dioxide, and water, the T-I Max AIRTM greenhouse gas (GHG) Cavity Ring-Down Spectroscopy (CRDS) analyzer is made especially to meet World Meteorological Organization (WMO) measurement standards.
Strict traceability and precision requirements, which are essential for evaluating greenhouse gas inventories, are met by the T-I Max AIR. It is the perfect option for tracking greenhouse gas levels in the atmosphere because of all these advantages.
It has exceptional dependability when measuring ambient CO2, CH4, and H2O levels. It can also track greenhouse gas emissions from various sources for stationary or mobile applications.
With automatic reporting of dry mole fraction and a high degree of precision in measurement, the T-I Max AIR is specifically made for GHG monitoring networks. Integrated into a small, sturdy, and economical footprint is the T-I Max AIR.
Its reputation as a dependable option for atmospheric measurements is cemented by its resistance to common interferences.
The T-I Max AIR eliminates the requirement for routine sensor maintenance or replacement. Because the system has built-in wavelength calibration, it is straightforward to use, fast to install, and effortless to maintain.
The sturdy construction has an extremely cheap cost of ownership and no moving parts.
Thousands of important points are monitored by CRDS gas analyzers nowadays for use in research and industrial applications. They are used as transfer standards for calibration and zero gas qualification at national metrology institutes worldwide.
Specifications
Source: Process Insights
| Performance |
| Operating range: |
See table below |
| Precision (1 σ): |
See table below |
| Accuracy*: |
See table below |
| Environmental conditions: |
10 °C to 40 °C, 30% to 80% RH (non-condensing) |
| Storage temperature: |
–10 °C to 50 °C |
| Gas Handling System and Conditions |
| Wetted materials: |
316L stainless steel and PFA |
| Gas connections: |
1/4” PFA compression fittings inlet & outlet |
| Inlet pressure: |
Atmospheric pressure |
| Outlet pressure: |
Vacuum (<10 Torr) |
| Flow rate: |
~ 0.5 slpm |
| Sample gases: |
Ambient air |
| Gas temperature: |
Up to 40 °C |
| Dimensions and Weight |
| Standard sensor: |
H × W × D: 8.75 x 19.0 x 25.0 in (222 x 483 x 635 mm)
(19” rack-mountable) |
| Standard sensor weight: |
55 lbs (25 kg) |
| Electrical and Interfaces |
| Power requirements: |
90 − 240 VAC, 50/60 Hz |
| Power consumption: |
300 Watts max. |
| User interfaces: |
10.1” LCD touchscreen, 10/100 Base-T Ethernet, RS-232, RS-485, |
| Modbus (Optional) |
| Data storage: |
Internal or external flash drive |
| Certification: |
CE Mark (pending) |
| Performance: |
| |
Range |
Accuracy* |
Precision† (1 σ) – 5 min. |
Precision† (1 σ) – 24 hrs. |
| CH4 |
0 – 20 ppm |
± 5% |
1 ppb |
2 ppb |
| CO2 |
0 – 1000 ppm |
± 5% |
50 ppb |
100 ppb |
| H2O |
0 – 7% |
± 5% |
30 ppm |
100 ppm |
* with factory calibration; for GHG monitoring networks the accuracy is dictated by the standard cylinders used for calibration.
† at typical ambient levels.
Gain Real-Time Insight Into the Process
Process Insights is a global manufacturer and supplier of high-quality sensors, monitors, detectors, analyzers, equipment, and software that are essential for maintaining the safety of the workers, the environment, and the operations.
Obtain the most dependable, accurate analytical technologies currently offered on the market. The company will strive to accommodate the requirements and financial constraints while offering the best, most reliable process analysis solution possible.