Tartan oil field explained

Tartan oil field
Coordinates:58.3697°N 0.0736°W
Relief:yes
Location Map:North Sea
Country:United Kingdom
Region:North Sea
Locblocks:15/16a and 14/20a
Offonshore:Offshore
Operators:Repsol Resources UK
Owner:Repsol Resources UK
Discovery:February 1975
Startofproduction:January 1981
Abandonment:2020
Recover Oil Bbl:62
Est Oil T:14.1
Api:37 - 40
Producingformations:Upper Jurassic sandstone

The Tartan oil field is a significant crude oil producing field in the UK sector of the North Sea, 187 km north-east of Aberdeen. Production of oil started in 1981 and ceased in 2020, the Tartan Alpha installation is currently (2021) undergoing decommissioning.

The field

The Tartan oil field is located in Blocks 15/16a and 14/20a of the UK North Sea continental shelf. Its name continues the Scottish theme of oil fields in the area (eg Claymore, Piper, Scott).[1] The Tartan field was discovered in February  1975 and the oil reservoir comprises an Upper Jurassic sandstone at a depth of 9,800 to 12,000 feet (2,9873 to 3,658 metres).[2] The reservoir and its fluids had the following characteristics:

Tartan reservoir and fluids!Parameter!Value
Porosity8–18 %
Permeability70–500 md %
API gravity37–40°API
Gas Oil Ratio900 standard cubic feet/barrel
Sulfur content0.7 %
Pressure/temperature4,600–5,700 psi (31,715–39,300 kPa) at 220–240 °F
Recoverable reserves 62 million barrels, 14.1 million tonnes

Owners and operators

The initial owner of the field was Texaco North Sea Limited which also operated the field. Talisman assumed ownership in 2000. The company became Talisman Sinopec Energy, then Repsol Sinopec.[3]

Development

The field was developed by a single integrated drilling, production and accommodation platform: Tartan Alpha (Tartan A). The principal design data of the Tartan A platform is given in the following table.

Installation
Tartan A
Coordinates58°22’11”N 00°04’25”E
Water depth, metres142
Fabrication substructureMcDermott-Hudson, Cherbourg and Methil
Jacket weight, tonnes14,400
Topsides design Lawrence Allison
Topsides weight, tonnes14,100
FunctionDrilling, production, accommodation
Accommodation (crew)200
TypeSteel jacket
Legs4
Piles 28
Well slots30
Throughput oil, barrels per day (bpd)75,000 + 14,400 Natural Gas Liquids
Water injection, bpd105,000
Platform installedJune 1979
Production startedJanuary 1981
Oil production toClaymore
Gas production toFrigg pipeline
Tartan Alpha was originally connected to the Piper Alpha platform through a 19 km 18-inch diameter gas pipeline. The failure of the riser of this pipeline at about 22:20 6 July 1988 during the Piper Alpha disaster led to a second major explosion followed by a widespread fire.[4]

Production from Tartan's faulted reservoir was 'disappointing'. Texaco therefore halted production well drilling on Tartan and focussed on the Highlander field, about 13 km north-west of Tartan, to enable the field to produce through Tartan.

Tartan satellites

In addition to its own production several other smaller fields were tied back to Tartan. The design data is summarized below.[5]

Name of fieldHighlanderPetronellaGalleyDuartTartan North Terrace
Year installed19851986199820072004
Distance from Tartan, km13 11143.4
Production pipeline, inches 1281086
Gas lift pipeline, inches8123
Water injection pipeline, inches48
No. of Wells111
Production from the Galley field was originally through the Northern Producer a floating production facility.[6]

Processing

Oil from the wellheads and subsea tie-ins was routed to one of five 1st stage 3-phase (oil, gas, water) separators. Oil flowed from the 1st stage separators to the single 2nd stage separator and from there was pumped through metering streams to the 27 km 24-inch diameter oil export pipeline to Claymore.

Produced water from the separators was treated in a degassing vessel and hydrocyclones to an oil-in-water concentration of less than 30 mg/litre prior to discharge overboard.

Gas from the separators was compressed in the single 5 stage compression train. Gas was treated to remove hydrogen sulfide. Some gas was used to provide lift gas for the wells and the remainder was exported via a 72 km 18-inch pipeline to the Frigg MCP01 bypass line, and thence to St. Fergus.

By 2017 there were 5 Tartan production wells and 1 subsea injection well.

The fluid handling capability of the Tartan facilities in its latter years of operation was as follows:

Treatment facilityCapacity
Crude oil30,000 bbls/day
Gas compression40-66 MMSCFD (million standard cubic feet per day)
Dehydration70 MMSCFD
Gas sweetening70 MMSCFD

Decommissioning

Repsol Sinopec were granted a Cessation of Production authorisation by the UK Oil and Gas Authority in August 2020.[7] Repsol Sinopec have submitted decommissioning plans to the Oil and Gas Authority, and are undertaking decommissioning of the Tartan installation and its associated infrastructure.[8]

Notes and References

  1. Book: Department of Trade and Industry. The Energy Report. HMSO. 1994. 0115153802. London. 88 and map 8.
  2. Book: Oilfield Publications Limited. The North Sea Platform Guide. Oilfield Publications Limited. 1985. Ledbury. 641–46.
  3. Web site: Tartan Oil Field. 18 October 2021. abarrelfull.
  4. Web site: 2012. Safety of offshore oil and gas operations: Lessons from past accident analysis. 18 October 2021. publications.jrc.ec.eur.
  5. Web site: Repsol Sinopec. Tartan A: Infrastructure Code of Practice. 18 October 2021. repsolsinopecuk.com.
  6. Web site: Galley oil field. 18 October 2020. abarrelfull.
  7. Web site: 2020. Repsol Sinopec calls time on Tartan Alpha after 40 years. 18 October 2021. Energy Voice.
  8. Web site: Oil and Gas Authority. Decommissioning Project summary. 18 October 2021.