For help with a story or to find an expert: 0114 225 2811
Media centre home > News > New jacket fits company requirements

Issued:03/11/14

A new University collaboration with the oil and gas industry has the potential to make huge savings - and bring the noise levels down in refineries and pipelines at the same time.

Preston-based company BS Stainless has launched SoundMet, a new jacketing and insulation material for oil and gas pipelines, after a two-year collaboration with scientists at Sheffield Hallam University's Materials and Engineering Research Institute (MERI).

The partnership, which has seen a knowledge transfer associate employed by the Lancashire company to research new insulation and jacketing materials at Sheffield Hallam, had led to a new product which has improved life expectancy, prevents corrosion and can reduce material and labour costs.

BS says SoundMet has the potential to save man hours and money because the new insulation provides metal  jacketing and weather protection in a single product rather than previous multi-layered approaches - and is much quieter than other pipeline solutions.

The new product cuts risk to staff exposed to a noisy environment, and also cuts costs as money can be lost through a loss of energy due to sound and vibration.

Sheffield Hallam has a long history of supporting knowledge transfer partnerships - this week is National KTP Week - and is currently working on 16 collaborations which link industry and academia.

Kashif Mohammad from BS, who worked at MERI as part of its knowledge transfer programme during the partnership, explained how around five to 10 per cent of an average oil or gas plant requires acoustic insulation around areas of particularly loud noise such as compressors and pumping stations.

He said: "As well as being uncomfortable and even dangerous for staff, these noise levels represent a waste of money as energy is lost to sound and vibration, decreasing efficiency.

"SoundMet has been designed to dampen sound and vibration, and reduce man-hours and labour costs. Integrating mass loaded vinyl (MLV) bonded to metal considerably reduces the amount of man-hours required to complete the job, representing a substantial cost saving." 

SoundMet has been designed to dampen sound and vibration, and reduce man-hours and labour costs. Integrating mass loaded vinyl (MLV) bonded to metal considerably reduces the amount of man-hours required to complete the job, representing a substantial cost saving.

The current system of jacketing for pipeline insulation uses sealant on the circumferential and longitudinal overlaps to secure the cladding.

This results in a metal-on-metal bond which, while generally effective, can allow moisture ingress. With SoundMet, the metal-metal bond is replaced by a metal-MLV bond, which has been proven to be a far stronger seal in pull-apart tests and also negates water ingress and prevents corrosion, greatly improving the life expectancy of the system it is applied to.

BS Stainless sales director Mark Almond said,: “SoundMet is an extremely exciting and revolutionary development for the BS Stainless brand and is another part of our continued, dedicated search for new and improved metal applications; this is the future of metal jacketing for acoustic insulation."

Dr Abhishek Asthana, from Sheffield Hallam University, added: "This three-way partnership between BS Stainless, Sheffield Hallam and the associate has transformed the company into a manufacturer and supplier of innovative products to the oil and gas industry and has created a niche market for itself worldwide, replacing existing products and challenging the resistance to change in the industry.."

The new product is the latest in a long association between the University and BS Stainless, having previously worked together to get the company CE approved for its stainless steel coil, sheet, strip and wire – one of the first British stainless steel processors and distributors to achieve it.

For press information: contact Laurie Harvey in the Sheffield Hallam University press office on 0114 225 2621 or email pressoffice@shu.ac.uk