Soarability Sniffer TDLAS uses Tunable Diode Laser Absorption Spectroscopy (TDLAS) technology to detect and measure gases.
TDLAS technology enables the device to detect very low concentrations of gases, making it a highly sensitive and accurate gas detection solution.
Soarability Sniffer TDLAS is designed for use in harsh environments, such as oil and gas refineries, chemical plants, and industrial facilities.
The device is portable and easy to use, making it an ideal solution for field-based applications.
provides real-time gas concentration measurements, enabling users to quickly identify gas leaks or other hazards and take appropriate action to prevent accidents or other safety issues.
The device is designed to be low maintenance, with no consumables required and a long lifespan, making it a cost-effective gas detection solution for many industries.
Sniffer TDLAS (CO2)
Gas detection is a crucial aspect of maintaining a safe and healthy work environment, especially in industries dealing with hazardous gases. The Sniffer TDLAS (CO2) is a gas detection device that uses Tunable Diode Laser Absorption Spectroscopy (TDLAS) technology to detect and measure gases.
A Reliable Gas Detection Solution for Harsh Environments
The Soarability Sniffer TDLAS is a gas detection device designed for use in harsh environments, such as oil and gas refineries, chemical plants, and industrial facilities. This article delves into the features of the Sniffer TDLAS and how its portability, accuracy, and sensitivity make it a reliable gas detection solution for these challenging environments.
Real-Time Gas Concentration Measurements with Soarability Sniffer TDLAS
The Soarability Sniffer TDLAS provides real-time gas concentration measurements, enabling users to quickly identify gas leaks or other hazards and take appropriate action to prevent accidents or other safety issues. This article highlights how the Sniffer TDLAS's TDLAS technology and low maintenance design provide a cost-effective gas detection solution for industries that require continuous monitoring of gas concentrations.
The Portable Gas Detection Solution
The Soarability Sniffer TDLAS is a portable and easy-to-use gas detection device that uses TDLAS technology to detect and measure gases. The Sniffer TDLAS's features and how its portability makes it an ideal solution for field-based applications. It has a long lifespan and low maintenance design provide a cost-effective gas detection solution for many industries.
Comparison table of the three major methane detection technologies used in field inspections:
Feature / Metric
OGI (Optical Gas Imaging)
TDLAS (Laser Absorption)
Gas Sniffers (PID, FID, etc.)
Detection
Infrared plume image
Methane-specific laser absorption
Chemical/electrical gas sensing
Output
Visual
Quantitative (ppm / ppm-m)
Quantitative (ppm)
Sensitivity
Moderate (<100 ppm)
High (ppb–ppm)
High (varies by sensor)
Methane Selectivity
Moderate (others detected too)
High (methane-tuned)
Variable
Quantification
No
Yes (with path length)
Yes
Range / Coverage
Moderate to wide
Long (10–250 m)
Point only
Real-Time
Yes
Yes
Yes
Conditions
Needs thermal contrast
Stable in most environments
Affected by weather
Automation
High (UAVs, robots)
High (UAVs, fixed units)
Low–Medium (handheld)
Remote Use
Excellent (standoff)
Excellent (remote possible)
Poor (manual, close-up)
Speed
Fast (area scan)
Fast (drones, long path)
Slow (point by point)
Cost
High ($80K–150K)
Medium ($10K–60K)
Low–Medium ($2K–20K)
Best Use
Visual leaks, LDAR, complex sites
Quantifying, monitoring, drones
Localized, indoor leaks
Regulatory Use
Accepted (OGI/Method 21 alt.)
Gaining approval for quantification
Standard Method 21