Portable Gas Detector

Identify. Define. Empower.

Knowledge can make all the difference when it comes to ambient air quality monitoring in workplace environments. The ability to quickly detect gases and identify unsafe particulate levels for personal exposure is critical to the health of your workers. Without such equipment, respirable particles can settle deep in the lungs, resulting in serious respiratory problems.

Thermo Scientific™ portable gas analyzers monitor ambient air in the workplace to help detect toxic vapors and gases. Our lightweight, portable instruments quickly measure a variety of single or multiple gases in the toughest environments including site remediation, fugitive dust, and coal mining. We offer unique products designed for field versatility, flexibility, and battery-powered portability to provide the critical information you need for quick response, identification, and analysis.

Applications:

•    Method 21 compliance (LDAR)
•    Emergency response
•    Environmental cleanup sites
•    Monitoring industrial and material-handling facilities

•    Remediation projects
•    Indoor air quality monitoring
•    Waste anesthetic monitoring

Featured portable ambient gas monitors:

TVA2020 Toxic Vapor Analyzer

Quickly detect fugitive emissions of organic and inorganic compounds for  U.S. EPA Method 21 and LDAR compliance. This lightweight, intrinsically safe portable detector offers a wide measurement range to satisfy a variety of field monitoring applications in a light-weight instrument with Bluetooth communication. The TVA2020 analyzer can be configured with both FID and PID technology for simultaneous detection and enhanced analytical capabilities.

MIRAN SapphIRe Portable Ambient Analyzers

Accurately measure a variety of gases with a single instrument. This family of portable, lightweight infrared instruments monitor ambient air in workplace environments for presence of gases. The Non-Dispersive Infrared technology utilizes folded path-length optical measurements to provide precise results in near-real time. Use of a variable infrared blocking filter permits measurement of multiple wavelengths, interference avoidance, simultaneous measurement of multiple compounds, and  identification of unknown compounds.