Skip to main content

ABB wins contract for Shell Prelude FLNG

Published by
Oilfield Technology,

ABB has won a five year contract to deliver equipment and services for Shell’s Prelude FLNG, the world’s first floating liquefied natural gas (FLNG) facility and the largest floating facility ever built. ABB’s equipment will minimise downtime and optimise the efficiency of the facility.

The order includes the delivery of motors, generators, variable speed drives and low voltage switchgear and guarantees service and lifecycle management of the electrical equipment as well as service and support for motors from third party vendors.

ABB will build up a spare parts inventory, workshop repairs, training and provide round the clock technical support both over the phone and onsite. Spare parts and replacement systems are being procured this year, with training to begin soon after. Prelude is 488 m long, 74 m wide, with a loaded displacement of 600 000 t with the facility’s deck longer than four football fields laid end to end.

Once towed to its location off the northwest coast of Australia, it will be attached to the underwater infrastructure in the Browse basin. It is scheduled to remain there for up to 25 years without uncoupling for overhaul, or to take shelter from cyclones.

“A reliable service network is crucial for the facility’s productivity. Prelude will be equipped with ABB’s integrated marine solutions for optimal reliability, flexibility and energy efficiency to assure higher profitability,” said Pekka Tiitinen, President of ABB’s Discrete Automation and Motion division. “In line with our Next Level strategy of business led collaboration various ABB businesses will work together to mobilise the strength and experience of our entire global service organisation.”

The electrical system will power 14 gas plant modules, allowing the facility to produce 5.3 million tpy of liquids. The agility of FLNG allows oil and gas companies to develop fields that would otherwise be uneconomical and their environmental impact is minimal compared with conventional production platforms and pipelines.

Adapted from press release by Francesca Brindle

Read the article online at:

You might also like


Embed article link: (copy the HTML code below):