Western HVDC Link explained

Western HVDC Link should not be confused with Western Isles HVDC connection.

Western HVDC Link
Country:United Kingdom
Start:Hunterston, Scotland 55.7211°N -4.8853°W
Finish:Flintshire Bridge, Wales 53.2317°N -3.0328°W
Partners:National Grid plc
ScottishPower Transmission
Cable Manufacturer:Prysmian
Cable Installer:Prysmian
Substation Installer:Siemens
Construction:2013
Expected:March 2017
Est:November 2019 (formal handover)
Type:Submarine power cable
Current Type:HVDC
Length:422
Capacity:2,250MW
Dc Voltage:600 kV

The Western HVDC Link is a high-voltage direct current (HVDC) undersea electrical link in the United Kingdom, between Hunterston in Western Scotland and Flintshire Bridge (Connah's Quay) in North Wales, routed to the west of the Isle of Man.[1] It has a transmission capacity of 2,250MW and became fully operational in 2019.

Construction

The project cost £1.2billion to build.[2] It was originally intended to enter service in 2015, and was given a deadline of 31 March 2017 by Ofgem, the industry regulator.[3] In 2016, engineers working on the project discovered the almost intact wreck of the World War I German submarine UB-85.[4] Completion was delayed a year due to cable manufacturing problems.[5]

The link entered service on 7 December 2017 at a reduced capacity of 900MW pending further work at Hunterston.[6] Full use became available on 16 October 2018, but it did not give a full service until summer 2019, and was not formally handed over to the operator until 22 November 2019.

In November 2021, National Grid and ScottishPower agreed to pay a penalty of £158million, after an Ofgem investigation determined these delays had increased consumer bills by limiting the amount of renewable power that could be sent from Scotland to the south of the UK. The investigation determined the delays were primarily caused by land acquisition problems, manufacturing problems, installation of cables and commissioning tests. £15million of the penalty was paid into the regulator's redress scheme, which distributes money to charities and other organisations which help energy consumers; the rest was indirectly returned to consumers through changes to Ofgem's calculation of transmission costs in the national network.

Description

The link augments the existing capacity provided by double-circuit AC transmission lines which join the Scottish and English transmission grids.

It consists of 422km (262miles) of cable, of which 385km (239miles) is under water.[7] It is the first subsea link at 600kV. Operating at this higher voltage increases transmission capacity and reduces transmission losses in the cable, reducing power loss from transmission and the two AC/DC conversions to under 3%.[8] There are two cables, which in shallow water are laid in a paired bundle, and in deep water are laid about 30abbr=onNaNabbr=on apart, generally buried about 1.5abbr=onNaNabbr=on below the seabed. The cables are jointed in 120km (80miles) sections.[9]

Line commutated converter technology is used at each HVDC converter to maximise the amount of electrical power that can be transferred, which is predominantly exported from renewable sources in Scotland. This type of HVDC conversion technology means that large filter halls are required at each converter station.[10] Gas-insulated switchgear is used at the Hunterston converter station to save space.

Routing the connection through the Irish Sea, as opposed to a land-based route, reduced the impact of the link on the visual environment and prevented the rising cost of land affecting the cost of the project. For the given distance, it was necessary to use a DC transmission technology for a subsea route, as the capacitive current required for an AC connection would be too high. Due to the proximity of the converter stations to the coastline, a decision was taken to host electrical infrastructure within built structures in order to reduce the effects of the coastal air on the equipment.

Power can be transferred in either direction, but it is necessary for the link to be offline for a sufficient time prior to reversing the direction. Mass impregnated non-draining (MIND) cables are used in a bipolar arrangement, but no sea- or earth-return path is permitted for environmental reasons, meaning that both cables must be in service for the link to be operational. The cables are spaced apart to minimise thermal interference, but not so far as to materially impact any marine life which navigates using the magnetic field of the Earth.

Outages

The link has suffered a number of outages due to cable faults, which typically take several weeks to locate and fix:

See also

External links

Notes and References

  1. Web site: News | Western Link | National Grid & Scottish Power . Westernhvdclink.co.uk . 16 October 2018 . 18 June 2019 . https://web.archive.org/web/20191025154325/http://www.westernhvdclink.co.uk/news-detail.aspx?newsID=120 . 25 October 2019.
  2. News: Ambrose. Jillian. 30 November 2021. Energy firms fined after subsea cable delay pauses Scottish windfarms. The Guardian. 1 December 2021.
  3. Web site: 30 November 2021. Decision of the Gas and Electricity Markets Authority to close its investigation into National Grid Electricity Transmission plc and SP Transmission plc and their compliance with obligations relating to the Western HVDC subsea link. 1 December 2021. Gas and Electricity Markets Authority. Ofgem. OFG1161.
  4. Web site: 19 October 2016. Wreck of German U-boat found off coast of Stranraer. BBC.
  5. News: Andrews. Annabel. 4 July 2017. Western HVDC link completion delayed until next year. New Power. 21 October 2018.
  6. Web site: Welcome. Western Link. 5 December 2017.
  7. Web site: Q&A . Western HVDC . 28 March 2015.
  8. Siemens to increase power transmission capacity between England and Scotland . https://web.archive.org/web/20181021190729/https://www.siemens.co.uk/en/news_press/index/news_archive/siemens-to-increase-power-transmission-capacity-between-england-and-scotland.htm . 21 October 2018 . Siemens . 8 February 2012 . 21 October 2018.
  9. Web site: Marine cable . Western HVDC . 28 March 2015.
  10. Web site: Hunterston converter station & cable . Western Link.
  11. Web site: News update ID 125 . 5 March 2019. Western Link. 14 March 2019.
  12. Web site: News | Western Link | National Grid & Scottish Power ID 128 . Westernhvdclink.co.uk . 2019-06-18.
  13. Web site: News | id 131 Western Link | National Grid & Scottish Power . Westernhvdclink.co.uk . 2019-06-18.
  14. Web site: Italy's Prysmian under fire over UK interconnector failure. 16 January 2020. Energy Reporters. 24 January 2020.
  15. Web site: Ofgem Starts Western Link Probe . Skopljak. Nadja . 2020-01-28 . Offshore Wind . en-US . 2020-01-29.
  16. News: Wade. Mike. 23 March 2021. Damaged power cable costs consumers £40m. The Times. 28 March 2021.