FLIR GFx320 – INTRINSICALLY SAFE OGI CAMERA

///FLIR GFx320 – INTRINSICALLY SAFE OGI CAMERA

FLIR GFx320 – INTRINSICALLY SAFE OGI CAMERA

INTRINSICALLY SAFE OGI CAMERA MODEL: FLIR GFX320, OBJECTIF FIXE 14,5°

The FLIR GFx320 represents ground breaking technology for visualizing fugitive hydrocarbon leaks at natural gas well sites, off-shore platforms, liquid natural gas terminals, and more. Its Intrinsically Safe designation means surveyors can work confidently inside critical safety zones. And thanks to the GFx320’s ergonomic features, such as the articulating LCD screen, surveyors can work quickly and comfortably all day.

VISUALIZE GAS IN REAL TIME

The GF343 displays the optical gas image in real-time, so you can quickly scan large areas for signs of gas emissions.

TRACE HYDROGEN LEAKS TO THEIR SOURCE

By adding 3-4% CO2 to hydrogen as a tracer gas, the GF343 can localize leaks and verify repairs.

DECREASE DOWNTIME, SAVE MONEY

Use the GF343 during regular operations to find leaks and confirm repairs—avoiding outages as well as costly regulatory fines.

Compare

Description

The FLIR GFx320 represents ground breaking technology for visualizing fugitive hydrocarbon leaks at natural gas well sites, off-shore platforms, liquid natural gas terminals, and more. Its Intrinsically Safe designation means surveyors can work confidently inside critical safety zones. And thanks to the GFx320’s ergonomic features, such as the articulating LCD screen, surveyors can work quickly and comfortably all day.

Additional information

Spectral Range

Detector Type

Focal Length

Accuracy

, ,

Thermal Sensitivity/NETD

Box Contents includes

Visual Image

Video Recording & Streaming

Color palettes

, , , , ,

Accessories 1

Accessories 2

,

Accessories 3

Accessories 4

Accessories 5

,

Accessories 6

,

Accessories 7

,

Accessories 8

Accessories 9

Accessories 10

Accessories 11

Manufacturer

Reviews

There are no reviews yet.

Be the first to review “FLIR GFx320 – INTRINSICALLY SAFE OGI CAMERA”

Your email address will not be published.