{{Short description|Providing electrical power from shore to a ship}} {{Power engineering}}
'''Shore power''' or '''shore supply''' is the provision of shoreside electrical power to a ship at berth allowing its engines to be shut down.<ref name="CTPx">[http://crosstree.info/Documents/ColdIroning.pdf Cold-Iron the Ships by Capt. Pawanexh Kohli] {{Webarchive|url=https://web.archive.org/web/20181022033615/http://crosstree.info/Documents/ColdIroning.pdf |date=2018-10-22 }}</ref> While the term originates from watercraft, it has been applied to aircraft or land-based vehicles, which may plug into grid power when parked for idle reduction.
The source of land-based power is typically supplied by an electric utility, though it may also be provided by an external generator powered by diesel fuel or renewable energy sources such as wind or solar.
Shore power reduces fuel consumption that would otherwise be required to operate onboard generators while in port and eliminates associated air pollution. Some port cities have anti-idling regulations that require ships to connect to shore power where available. Its use may also facilitate maintenance of onboard engines and generators and reduce noise.
thumb|4.5 MW connection at the Port of Kiel in Germany
The amount of electrical power required can be substantial. For example, to supply visiting cruise ships, the port of Flåm in Norway installed a system capable of delivering 16 MVA to a single vessel.<ref>{{Cite web |last=zpiritas |title=Shore power to Flåm Port - PSW Power & Automation AS |url=https://pswpower.no/news/shore-power-to-flam-port/ |access-date=2025-05-18 |website=PSW Power |language=en-US}}</ref> The port of San Diego is capable of supplying three ships simultaneously at comparable power levels and additionally operates a high-voltage shore connection system.
==Oceangoing ships== [[File:IEC ISO IEEE 80005-1 plugs ready to be attached to a Ship in the Port of Oslo.jpg|thumb|IEC ISO IEEE 80005-1 shorepower plugs ready to be attached to a ship in the Port of Oslo.]] {{more citations needed|date=June 2021}}
Modern commercial vessels can connect to shore power while in port, allowing them to shut down auxiliary diesel engines used for cargo handling, pumping, ventilation, lighting, and other onboard systems. This reduces air pollutant and greenhouse gas emissions. Ferries and cruise ships commonly use shore power to supply onboard "hotel" loads, and specialized vessels, such as salmon feeder ships, may also connect to shore power while operating at aquaculture sites.<ref>{{cite web |title=Salmon farmer installs 5.6km power supply to feed barge - FishFarmingExpert.com |url=https://www.fishfarmingexpert.com/article/salmon-farmer-installs-56km-power-supply-to-feed-barge/ |website=FishFarmingExpert.com |language=en |date=3 March 2021}}</ref>
Larger shore power installations may include electrical equipment to convert grid voltage and frequency to match a vessel's onboard systems.<ref>{{cite web |title=ShoreBoX |url=https://www.se.com/eg/en/product-range/61396-shorebox/ |website=Schneider Electric Egypt |language=en-EG |access-date=2025-06-16}}</ref> Several ports have introduced programs to expand shore power infrastructure.<ref>{{cite web |title=8 Ports Racing to Shore Power in 2026 & Beyond |url=https://www.shipuniverse.com/8-ports-racing-to-shore-power/ |website=Ship Universe |date=15 October 2025}}</ref>
"Cold ironing" is a term originating in the shipping industry during the era of coal-fired steamships. When a vessel was moored in port, its boilers were no longer fed with coal and the iron engines gradually cooled, eventually going cold, giving rise to the term.
Under the European Union's ''Fit for 55'' climate package, major ports in the European Union are required to provide shore power for certain vessel types by 2030. {{asof|2023}}, approximately 46% of cruise ships worldwide were capable of connecting to shore power while in port.<ref name="CLIA">{{cite web |last=CLIA Europe |title=CLIA Europe |url=https://europe.cruising.org/ |website=CLIA Europe |language=en-US |access-date=2025-05-26}}</ref>
==Small watercraft== thumb|Small boats using 230V 16A IEC 60309 for shore power connections
On smaller vessels, onboard electrical systems are typically 12- or 24-volt DC systems fed by batteries recharged by the engine while underway, similar to an automobile.<ref>{{cite web|url=https://uk.boats.com/how-to/12-volt-boat-power-understanding-the-basics/|title=Marine electrics: the basics of 12-Volt systems|website=Boats.com}}</ref> When berthed in a marina or harbor, power may available through a shore power connection.<ref>{{cite web|url=https://www.scottishcanals.co.uk/activities/boating/information/using-shore-power/|title=Using Shore Power|website=Scottish Canals}}</ref>
This allows the vessel to recharge its batteries and operate appliances such as televisions, washing machines, cooking equipment, and air conditioning. Power is typically supplied from a dockside pedestal, which may be metered and require payment if electricity is not included in mooring fees. The vessel connects to the supply using an appropriate shore power cable.<ref>{{cite web|url=https://www.fisheriessupply.com/shore-power-101|title=Shore Power 101|website=Fisheries Supply}}</ref>
== Trucks ==
In the trucking industry, shore power is commonly referred to as "truck stop electrification" (TSE). The United States Environmental Protection Agency estimates that heavy-duty trucks connecting to shore power instead of idling on diesel fuel can save up to $3,240 annually in fuel costs.<ref name="energy_gov-idle_red">{{cite web|title=Alternative Fuels and Advanced Vehicles Data Center: Truck Stop Electrification for Heavy-Duty Trucks|url=https://www.afdc.energy.gov/afdc/vehicles/idle_reduction_electrification.html|website=Alternative Fuels Data Center}}</ref> {{As of|2009}}, 138 truck stops in the United States offered electrification services for an hourly fee, either through onboard systems (which supply power directly to the truck) or off-board systems (which provide external climate control units).<ref name="energy_gov-tse_listings">{{cite web|title=Alternative Fuels and Advanced Vehicles Data Center|url=http://www.afdc.energy.gov/afdc/progs/tse_listings.php|url-status=dead|archiveurl=https://web.archive.org/web/20090711100412/http://www.afdc.energy.gov/afdc/progs/tse_listings.php|archivedate=2009-07-11|website=Alternative Fuels Data Center}}</ref>
Auxiliary power units provide another alternative to both engine idling and shore power systems.
==Aircraft== [[File:201701 EI-XLD with GPU supply.jpg|thumb|A Rossiya Airlines airplane connected to its 115V 400Hz AC ground power unit at Phuket International Airport.]]
{{more citations needed|date=June 2021}}
Similar to shore power for ships, a ground power unit (GPU) may be used to supply electric power for an aircraft on the ground, to sustain interior lighting, ventilation and other requirements before starting of the main engines or the aircraft auxiliary power unit (APU). It is also used by aircraft with APUs if the airport authority does not permit the usage of APUs whilst parked, or if the carrier wishes to save on the use of jet fuel (which APUs use). This may be a self-contained engine-generator set, or it may convert commercial power to the voltage and frequency needed for the aircraft (for example 115 V or 230V / 400 Hz).
== Trains and buses == Shore power may be a grid connection for passenger trains laying over between runs.<ref>{{Cite web|url=https://www.railengineer.co.uk/feeding-the-train-intelligent-shore-supply/|title=Feeding the train - Intelligent shore supply|first=Peter Stanton BSc CEng FIMechE FIET|last=FPWI|date=August 25, 2021}}</ref> Similarly buses may be connected when not in use.{{cn|date=August 2023}}
==See also== * IEC 60309 2P+E plugs (pretty common in Europe) for small boats providing 16, 32 or 63 A at 230 volts * NEMA L5-30 plugs are most often used in N. America for small boats (120 volts at 30 A) * IEC/ISO/IEEE 80005-1 - international standard for larger vessels requiring over 1MVA<ref>{{cite web | url = https://www.portstrategy.com/news101/port-operations/planning-and-design/breaking-boundaries-in-shoreside-power | title = Making a connection | date = 2014-04-07 | work = Port Strategy }}</ref><ref>{{Cite web |title=Overview of Shore Power Sockets and Plugs - IEC/IEEE 80005 |url=https://www.sustainable-ships.org/stories/overview-shore-power-sockets-plugs-2 |access-date=2025-05-18 |website=Sustainable Ships |language=en-US}}</ref>
== References == <references />
{{Authority control}} {{Electricity delivery}}
Category:Electric power transmission Category:Air pollution control systems Category:Ports and harbours Category:Nautical terminology Category:Power electronics Category:Port infrastructure Category:Maritime transport Category:Electrical engineering Category:Infrastructure