Carbon-efficient production in North Sea development
Emerson has signed a fiveyear framework agreement with Equinor to provide operational support services to ensure its Martin Linde platform is able to safely produce oil and gas .
Text and image by Emerson
About Emerson Emerson is a global technology and software company providing innovative solutions for the world ’ s most essential industries . Emerson is specialised in automation and helps process , hybrid and discrete manufacturers optimise operations , protect personnel , reduce emissions and achieve their sustainability goals through its automation portfolio .
Emerson has agreed to a five-year framework agreement with Equinor in which the former is set to provide operational support services in order to ensure continued safe and optimised oil and gas production from its Martin Linge platform in the Norwegian North Sea . Martin Linge is a significant development for Norwegian oil and gas production with expected recoverable resources of around 260 million barrels of oil equivalent . Emerson ’ s technology , project expertise and global resources were beneficial in helping achieve first oil safely , and with the award of this service contract , Equinor gains continued support to optimise production , reduce energy consumption and emissions , and maximise the potential of the Martin Linge development . The service agreement , which includes options for three additional five-year periods , covers maintenance and upgrades of the control technology , software and instrumentation . These technologies are helping to accelerate carbon-efficient production and empower remote operation from onshore for increased worker safety and reduced operating costs .
The Martin Linge platform
Martin Linge , situated 42 kilometres west of Oseberg , was the first platform on the Norwegian continental shelf to be started up from shore . The 63 billion Norwegian krone ( EUR 6.0 billion ) mega-project includes a production platform and a permanently anchored floating storage and offloading ( FSO ) vessel . These facilities are powered from onshore via the world ’ s longest alternating-current sea cable , helping to reduce CO2 emissions by 200,000 tonnes per year . Oil is processed on the FSO vessel before being transported in shuttle tankers to the global market , while gas is transported via pipeline to St . Fergus , Scotland .
“ With this service agreement , we look forward to helping Equinor achieve continued safe and carbon efficient production ,” said Mark Bulanda , executive president of Emerson ’ s Automation Solutions business .
Services
The award of the service agreement follows Emerson ’ s implementation of a complete automation solution for the project , which incorporates the company ’ s DeltaV™ distributed control system , advanced wired and wireless measurement instrumentation , critical control , emergency shutdown and isolation valves , metering technology , and
asset management software . This technology enables both the platform and the FSO vessel to be mainly operated from an onshore control room in Stavanger , with offshore operators able to access the control system interface via mobile handheld devices , resulting in increased worker flexibility and efficiency . Controlling the production facilities in this manner enables three shifts of operators to work from onshore rather than offshore , reducing risk to personnel and minimising costs . Emerson ’ s cloud engineering services and digital twin technology was used for first oil being safely achieved . The company ’ s Remote Virtual Office ( RVO ) platform enabled project personnel around the world to collaborate securely in a virtual engineering , commissioning and testing environment , regardless of their location . This not only reduced travel requirements – which was vital due to COVID-19 restrictions – but also had an impact on project schedule , risk and costs . It also enabled project and operational benefits , such as streamlining commissioning of the control system , helping Equinor train its operators to experience real-life scenarios before the control system went live , and make continued improvements that help to optimise production , and reduce energy consumption and emissions .
44 Valve World February 2023 www . valve-world . net