Statoil is investing in a secure and sustainable energy future for the UK. We have a broad range of activities in the UK, including offshore wind projects, upstream operations on the continental shelf, natural gas trading and crude oil sales.
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Mariner—a new era for Statoil on the UK continental shelf
Discovered in 1981 on the East Shetland Platform, approximately 150 kilometres east of the Shetland Islands, the Mariner field is a daunting prospect for oil and gas producers. Mariner is a heavy oil field characterised by dense, viscous oil.
In December 2012, Statoil and its partners decided to take on the challenge and made the investment decision for the Mariner project, which entails a gross investment of more than GBP 4.5 billion. This was the largest capital commitment to the UK Continental Shelf (UKCS) in more than a decade.
The concept chosen includes a production, drilling and quarters (PDQ) platform based on a steel jacket, Mariner A, with a floating storage unit (FSU), Mariner B. Drilling will be carried out from the Mariner A drilling rig, with a jack-up rig assisting for the first 4 years.
The development of the Mariner field will contribute more than 250 mmbbls reserves with average plateau production of around 55,000 barrels per day. The field will provide a long term cash-flow over 30 years. Production is expected to commence in 2018.
The Mariner field will in the initial years employ 700 people, offshore and onshore, contractors included. It will also support a significant number of jobs in the UK supply chain.
Statoil has awarded the contract for drilling services on the Mariner platform to UK-based Odfjell Drilling. Noble Corporation is awarded the contract for the additional jack-up rig that will assist the PDQ in the initial years. This rig is currently in operation in the Mariner field.
The Mariner maintenance and modification services contract has been awarded to Aker Solutions UK. The offshore services contract has been awarded to Stork Technical Services Limited, also based in the UK. The helicopter transportation contract for the Mariner field has been awarded to CHC Helicopter in the UK.
The steel jacket was installed in the field during the summer of 2015. The topsides modules are being constructed by Daewoo Shipbuilding & Marine Engineering Co., Ltd. (DSME).
The Mariner oil field consists of two shallow reservoir sections: the deeper, Maureen formation at 1492 meters and the shallower Heimdal reservoir at 1227 meters. The oil is heavy with API gravities of 14.2 and 12.1 and viscosities at reservoir conditions of 67 cP and 508 cP, respectively for Maureen and Heimdal.
Heavy oil projects have required the development of pioneering technology. Since its discovery in 1981, the Mariner field has been subject to a number of development studies by different operators. Statoil was the first company to put forward a development concept that will fully address the complexities of this field.
We are the operator of the Mariner field with 65.11% equity. Co-venturers are J.X. Nippon (20%), Siccar Point Energy (8.89%) and Dyas (6%).
A leading player in offshore wind
Statoil is an important player in the UK’s burgeoning offshore wind sector
The Sheringham Shoal field, located just off the Norfolk coast, started production in 2012. Located nearby, the Dudgeon offshore wind farm, also developed in partnership with Norwegian company Statkraft, will come online in 2017. Together, Sheringham and Dudgeon will supply electricity to 630,000 UK homes.
Furthermore, we are partners in the Dogger Bank offshore wind project and are pioneering floating wind technology through the Hywind Scotland Pilot Park off the coast of Peterhead in Aberdeenshire. Floating wind potentially represents a new and significant renewable energy source that will complement an existing and expanding array of alternative energy projects. Our Hywind project is expected to demonstrate the feasibility of multiple floating wind turbines in a region that has optimal wind conditions.
Statoil’s offshore wind projects are a key component in our commitment to reducing carbon emissions. Every megawatt hour produced from wind theoretically displaces approximately one tonne of carbon dioxide from coal power (and about half a tonne compared to gas-fired power).