Gas Leakage Camera

Paglalarawan ng produkto
Hydrocarbon gas leak detection camera is an instrumentation tool for gas leakage detection. Below are two of our featured gas leak cameras.
Optical Gas Imaging Cameras
G330
It is able to detect & pinpoint the gas leaks location precisely. It is a multifunctional device for infrared gas leak detection & thermograph applications, which is a powerful device that you cannot miss.
G320
G320 adopts cooled QWIP detector, it can accurately find the SF6 leakage point. This portable thermal camera can detect the leakage from a safe distance, thus the safety of operators can be ensured.
G330S
VOCs gas optical thermal imaging camera is a non-contact device, it can quickly scan VOCs natural gas pipelines and equipment, real-time and intuitively locate the VOCs gas leak points and accurately measure the temperature.
G430
CO2 gas optical thermal imaging camera is a non-contact device, it can quickly scan CO2 natural gas pipelines and equipment, real-time and intuitively locate the CO2 gas leak points and accurately measure the temperature in thermal images.
G460
CO gas optical china thermal imaging camera is a non-contact device, it can quickly scan CO natural gas pipelines and equipment, real-time and intuitively locate the CO gas leak points and accurately measure the temperature in thermal images, so as to achieve CO natural gas long-distance rapid detection of pipelines and equipment.
G640
G640 uses quantum well infrared gas leak detector, which can accurately find SF6INH3 leakage point through thermal imaging.
Application of Infrared Gas Detection Camera
Most of the gases have characteristic absorption peaks in the mid-infrared region, and the concentration of a certain gas can be determined by detecting the absorption of the characteristic absorption peak position. This infrared gas detector has been successfully used for the detection of gases such as carbon dioxide, methane, and sulfur hexafluoride.
The gas imaging camera is made by using some metal oxide semiconductor materials, and the conductivity changes with the change of ambient gas composition at a certain temperature. For example, an ethanol sensor is prepared by the principle that the resistance of the tin dioxide is drastically reduced when it encounters ethanol gas at a high temperature.