BP Chemicals enhances safety with Flir infrared

Flir Systems has revealed how its GasfindIR thermal imaging camera range is enabling BP Chemicals to minimise leaks at its Saltend plant.

Effective leak detection is a site priority at Saltend and one of a number of procedures for ensuring safe operation.

Dr Geoffrey Wilcox, senior technologist, said: 'We have several established programmes that help us to comply with both regulatory and local requirements.' The EU Chemical Agents Directive, to protect the health and safety of workers using chemicals, and the Control of Major Accident Hazards Regulations, commonly referred to as COMAH, are typical examples.

He added: 'To support these aims, we have many systems for measuring, monitoring and reporting.

'Some are fixed and some are portable, such as personal measurement devices.' Infrared gas detection is not new to BP Chemicals at Saltend but since last evaluating its potential the technology has been subject to considerable development.

In 2001, Wilcox trialled a highly sophisticated system that used spectral analysis to identify the specific gas emission.

He said: 'The kit was so unwieldy; it was like welcoming a film crew on site.' Dave Fashimpaur, environmental and loss control specialist at BP in Naperville, US, had come to the same conclusion: that such a system was not practical for his purposes.

Instead he had chosen a Flir GasfindIR HSX thermal imaging camera that was easily portable and designed for real-time leak detection rather than non-contact analysis.

Bought in 2005, this FLIR GasfindIR camera has been central to Fashimpaur's troubleshooting work and it now accompanies him all over the world.

Fashimpaur said: 'There's no set-up involved.

'When you switch the camera on, it has to cool down to the required temperature but after that you get your images immediately.

'There's no post-processing involved and I just play the video footage back via Windows Media Player.' The camera allows him to inspect wide areas efficiently and to pinpoint the source of the leak.

He added: 'I'm looking for motion in the black-and-white image.

'Of course, that could be steam or metal tags waving in the breeze so my judgement is informed by experience, but by changing the lens I can capture the complete scene or a small detail.' The 25mm lens is the most popular but Fashimpaur also has 50mm and 100mm for longer-range inspection.

This piece of equipment was one of three Flir GasfindIR cameras recently employed to check plant integrity at the Saltend site.

Fashimpaur used his HSX model to detect a range of gases, including methane and methanol, which are both predominant at the UK plant.

HSX is able to detect 20 different gases in total.

In addition, a long-wave version of the camera was used that is capable of detecting acetic acid, acetic anhydride and ammonia; three of the total of eight products processed at Saltend.

Completing the set was a new camera in the Flir GasfindIR family.

This model is specifically designed to detect carbon monoxide (CO).

To a greater or lesser degree, the majority of process gases at BP Chemicals are hazardous, but CO is certainly in a class of its own.

Even in the low parts per million it can cause serious health problems and BP ensures that any of its personnel that could potentially come into contact with CO carry personal monitors at all times.

The carbon element of CO is obviously an environmental problem too, so the detection of any leaks is doubly important.

Although some process areas of BP Chemicals at Saltend are nearly 30 years old, this is a site that is well-maintained and this was borne out by the relatively few emissions detected during the IR survey.

Nevertheless all three cameras acquitted themselves well by pinpointing several gas leaks.

In the case of the Flir GasfindIR HSX camera, there had been some previous evidence of leakage at the plant entry point for natural gas from which carbon monoxide is produced.

To enhance safety, odour is added to the natural gas and as process engineer, CS Chung, said: 'We were able to smell the leak, but didn't know its exact location.' The HSX camera found the culprit to be a leaking flange that has since been tagged for repair during the next maintenance shutdown.

One of the main sources for the natural gas used in the process is the BP terminal at nearby Dimlington.

The site processes in the region of 900 million standard cubic feet of North Sea gas daily.

The infrared survey at Dimlington confirmed more than 99 per cent of components to be leak-free.

However, the HSX camera was able to trace the source of an odour at a condensate sump and small leaks around compressor flange plates.

The Flir GasfindIR HSX camera is designed for outdoor use.

For that purpose it comes complete with selectable frame acquisition rates to suit the ambient temperature.

Too great a heat results in a saturated image and too cold leads to insufficient detail.

This feature ensures optimum performance whatever the ambient temperature so that the Flir GasfindIR can be used with equal efficiency for inspecting hot compressors or sites characterised by permanent ice.

Unlike other gases at Saltend, CO does not have the advantage of odour and therefore unless the emission exceeds the alarm setting of a personal monitor or a fixed detector, a leak will remain undetected.

The first small escapes that the Flir GasfindIR CO camera found were from an infeed pipe and a heat exchanger flange, both part of an electrically-driven compressor.

From a gantry in an adjoining covered section of the plant, the camera was then used to inspect a series of steam-driven compressors.

Two further CO leaks were found.

In high-sensitivity mode both were clearly visible as plumes of gas.

The Flir GasfindIR LW proved equally effective.

This camera was primarily developed for the detection of the greenhouse gas, sulphur hexafluoride (SF6), but its wider capabilities made it a good choice for BP.

It can also 'see' acetic acid and therefore provided clear images of small emissions from the vapour space in tankers and from a vent in the roof of the loading bay.

It also identified small escapes from automatic loading arms whose emissions are largely controlled by recovery systems.

Ammonia is another gas detectable by the LW camera and this was seen in a vent situated 20m above ground-level with the camera position at a distance of 150m or so.

Flir GasfindIR cameras are increasingly being adopted by plants for the visualisation and documentation of gas leaks.

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