Underground power line explained

An underground power line provides electrical power with underground cables. Compared to overhead power lines, underground lines have lower risk of starting a wildfire and reduce the risk of the electrical supply being interrupted by outages during high winds, thunderstorms or heavy snow or ice storms. An added benefit of undergrounding is the aesthetic quality of the landscape without the powerlines. Undergrounding can increase the capital cost of electric power transmission and distribution but may decrease operating costs over the lifetime of the cables.

History

Early undergrounding had a basis in the detonation of mining explosives and in undersea telegraph cables. Electric cables were used in Russia to detonate mining explosives in 1812, and to carry telegraph signals across the English Channel in 1850.[1]

With the spread of early electrical power systems, undergrounding began to increase as well. Thomas Edison used underground DC “street pipes” in his early electric power distribution networks; they were insulated first with jute in 1880, and progressed to rubber insulation in 1882.

Subsequent developments occurred in both insulation and fabrication techniques:

During the 20th century direct-buried cable became commonplace.

Comparison

The aerial cables that carry high-voltage electricity and are supported by large pylons are generally considered an unattractive feature of the countryside. Underground cables can transmit power across densely populated areas or areas where land is costly or environmentally or aesthetically sensitive. Underground and underwater crossings may be a practical alternative for crossing rivers.

Advantages

Disadvantages

The advantages can in some cases outweigh the disadvantages of the higher investment cost, and more expensive maintenance and management.

Methods

Regulations

Europe

The UK regulator Office of Gas and Electricity Markets (OFGEM) permits transmission companies to recoup the cost of some undergrounding in their prices to consumers. The undergrounding must be in National Parks or designated Areas of Outstanding Natural Beauty (AONB) to qualify. In 2021 work started on a project to bury of 400kV overhead power lines running from near Winterbourne Abbas to Friar Waddon (north-west of Weymouth) in Dorset AONB. Similar schemes are planned for Snowdonia, the Peak District and the North Wessex Downs.[17]

The most visually intrusive overhead cables of the core transmission network are excluded from the scheme. Some undergrounding projects are funded by the proceeds of national lottery.

All low and medium voltage electrical power (<50 kV) in the Netherlands is now supplied underground.

In Germany, 73% of the medium voltage cables are underground and 87% of low voltage cables are underground. The high percentage of underground cables contributes to the very high grid reliability (SAIDI < 20).[18] In comparison, the SAIDI value (minutes without electricity per year) in the Netherlands is about 30, and in the UK it is about 70.

California

In the United States, the California Public Utilities Commission (CPUC) Rule 20 permits the undergrounding of electrical power cables under certain situations. Rule 20A projects are paid for by all customers of the utility companies. Rule 20B projects are partially funded this way and cover the cost of an equivalent overhead system. Rule 20C projects enable property owners to fund the undergrounding.

Japan

Most electrical power in Japan is still distributed by aerial cables. In Tokyo's 23 wards, according to Japan's Construction and Transport Ministry, just 7.3 percent of cables were laid underground as of March 2008.

Variants

A compromise between undergrounding and using overhead lines is installing air cables. Aerial cables are insulated cables spun between poles and used for power transmission or telecommunication services. An advantage of aerial cables is that their insulation removes the danger of electric shock (unless the cables are damaged). Another advantage is that they forgo the costs—particularly high in rocky areas—of burying. The disadvantages of aerial cables are that they have the same aesthetic issues as standard overhead lines and that they can be affected by storms. However, if the insulation is not destroyed during pylon failure or when hit by a tree, there is no interruption of service. Electrical hazards are minimised and re-hanging the cables may be possible without power interruption.

See also

External links

Notes and References

  1. History of underground power cables - IEEE Journals & Magazine. en-US. 10.1109/MEI.2013.6545260. 30589908.
  2. News: How Do Power Lines Cause Wildfires?. 2014-02-13. Texas Wildfire Mitigation Project. 2018-05-13. en-US.
  3. Web site: Underground power cables.
  4. Web site: To curb power theft, Maharashtra explores underground supply network across state. DNA India. 11 May 2015. 20 July 2015.
  5. Web site: No party for thousands of Victoria residents after rogue balloons hit power lines. CBC . 7 August 2020.
  6. Web site: Truck snags power line, causes major damage downtown. The Mount Airy News . 22 July 2020. 7 August 2020.
  7. http://www.thestate.com/opinion/letters-to-the-editor/article41203599.html Letters to the editors
  8. Web site: Urban Forests | American Forests . 2016-01-18 . 2016-01-18 . https://web.archive.org/web/20160118212005/https://www.americanforests.org/our-programs/urbanforests/ . dead .
  9. Web site: Edison Electric Institute - Underground Vs. Overhead Distribution Wires: Issues to Consider. 11 November 2023.
  10. Los Angeles Department of Water & Power System Development Division cost estimate data
  11. Kim, Kim, Cho, Song, Kweon, Chung, Choi. Jae-Han, Ju-Yong, Jin-Tae, Il-Keun, Bo-Min, Il-Yop, Joon-Ho. 20 March 2014. Comparison between Underground Cable and Overhead Line for a Low-Voltage Direct Current Distribution Network Serving Communication Repeater. Energies. 7. 3. 1656–1672. 10.3390/en7031656. free.
  12. Web site: Should Power Lines be Underground?. 11 November 2023.
  13. News: Underground vs. Overhead Transmission and Distribution. 2019-05-09. en-US.
  14. Web site: Roadway resurfacing in Boston. 9 July 2018.
  15. News: Underground Transmission Lines. https://ghostarchive.org/varchive/youtube/20211221/i5WvDpjqXuo . 2021-12-21 . live. 2019-05-09. en-US.
  16. News: NEC 310.60. 2021-11-13. en-US.
  17. News: Boothroyd . John . Power for the past . British Archaeology . 182. 10 December 2021 . York . 49–50. 1357-4442.
  18. Web site: Netzausbau in Deutschland. kas.de. 11 November 2023. de.