Channels

 

Special Offers & Promotions

 

 

Latest News

 

 

View Channel

New Products

 

 

View Channel

Video Presentations

 

 

View Channel

Separation Science

 

 

View Channel

Microscopy & Image Analysis

 

 

View Channel

Laboratory Automation & IT Solutions

 

 

View Channel

 

Detecting VOC Leaks from a Safer Distance

publication date: May 23, 2014
 | 
author/source: FLIR systems

fliratspr85

A new technical report from FLIR Systems details how developments in optical gas imaging camera technology are allowing smaller Volatile Organic Compound (VOC) leaks to be detected from a safer distance.

Detecting leaks of volatile, gaseous compounds can be dangerous, therefore operational safety of any detection technique is of vital importance for maintenance engineers. With Optical Gas Imaging (OGI) cameras, they make use of non-contact measuring Infrared technology that can detect, in real-time, small leaks from several meters away and big leaks from hundreds of meters away. 

The most important criteria when it comes to selecting an OGI camera for VOC leak detection are detector performance / tuning possibilities and camera sensitivity including related sensitivity enhancement features.  This technical note focuses on developments made by FLIR Systems  incorporated into its FLIR GF320 camera that make it the OGI camera of choice for many oil & gas, petrochemical and chemical companies worldwide.

The ultra sensitive Indium Antimonide (InSb) quantum detector used in FLIR GF320 cameras visualises gases and small temperature differences in the 3.2-3.4 micrometer waveband.  Using advanced cold filtering technology significantly improves the sensitivity of the FLIR GF320 by eliminating background radiation in unwanted wavelength regions. Operating just in a wavelength band where VOC's have a high absorption spike enables the FLIR GF320 to visualise much smaller details and detect lower concentration gas leaks than any other passive OGI camera available on the market today.

Setting the appropriate temperature span and level (mid-point) is also essential to obtaining optimal optical gas imaging results. A wide span will provide less image detail. A narrow, more fine-tuned span will offer more detail. Using the FLIR GF320's proprietary High Sensitivity (HSM) image subtraction video processing mode enables users to search for gas without having to set the level of the image before narrowing the span. Since setting the level to the background temperature is a complicated process and not possible for more than one background at a time, HSM allows maintenance engineers or operators to save a lot of time and make it much easier and faster for them to search for small leaks. This is done in real time and therefore greatly enhances the stability and the sensitivity of the FLIR GF320.


more about FLIR


more news from FLIR




 

News Channels

 

 

Subscribe to any of our newsletters for the latest on new laboratory products, industry news, case studies and much more!

Newsletters from Lab Bulletin

 

Request your free copies HERE

 

 

 

Popular this Month

Top 10 most popular articles this month

 

 

Today's Picks

 

 

 

 

Looking for a Supplier?

Search by company or by product

 


Company Name:

Product:


 

 

 

 

Please note Lab Bulletin does not sell, supply any of the products featured on this website. If you have an enquiry, please use the contact form below the article or company profile and we will send your request to the supplier so that they can contact you directly.

Lab Bulletin is published by newleaf marketing communications ltd.


 

Media Partners

 

Exhibitions & Events