Offshore wind on-turbine electrical vessel charging system

Find Similar History 39 Claim Ownership Request Data Change Add Favourite

Title
Offshore wind on-turbine electrical vessel charging system

CoPED ID
e48e078d-1950-4b19-ac8d-2e7aaacc9f43

Status
Closed


Value
£4,013,582

Start Date
Aug. 31, 2021

End Date
March 30, 2022

Description

More Like This


This project will factory test a prototype electric charging point for an offshore wind turbine, with subsequent installation, testing and demonstration of its use in real-world field trials charging a battery on a crew transfer vessel (CTV).

Offshore wind's ability to provide clean, green power will provide the cornerstone of the UK's 'net-zero' target. Despite emissions from wind power being far lower than Fossil Fuels there is a drive within the industry to make this a truly zero-emissions source of electricity. CTVs are the most common vessel used in the operations and maintenance of Offshore Wind Farms and they typically burn Marine Gasoil(MGO), a fuel similar to diesel with its associated high emissions. Battery electric CTVs (eCTVs) have the potential to replace MGO for zero-emission operations but as with the early days of electric cars, battery energy density mean that they have a limited range. At present, charging infrastructure is only available in port which means that only a small portion of turbines are practically accessible by eCTVs. Placing a charging point in 'the field' will mean that eCTVs will be able to operate with zero-emission on turbines considerably further from shore.

This project will design, build, and test an electric charge point situated on a wind turbine. This approach will access the infrastructure already in place (turbine platform, electrical cables) to provide renewable electricity to vessels. As an eCTV 'docks' with the turbine a cable reel will lower down an electrical charge connection which will plug in to the vessel and charge a battery on-board. Although the technology necessary for this is relatively mature this has yet to be done before and so this project will need to develop standards, working practices and procedures in order to safely carry this out at sea.

This project is led by the highly skilled marine electrical engineers of UK based MJR Power and automation who will develop a high value product that can be installed across the ever-growing number of wind farms both in UK waters and across the world. Vessel operator tidal transit, vessel designer Artemis technologies, wind farm operator Xceco, and the offshore renewables experts at OREcatapult will be partners on this project, providing the skills, expertise, and vessels necessary to carry out the trials. All partners are committed to decarbonisation and this project will place them at the forefront of innovation in this field.

Mjr Controls Limited LEAD_ORG
Artemis Technologies Ltd PARTICIPANT_ORG
Tidal Transit Limited PARTICIPANT_ORG
Xceco Limited PARTICIPANT_ORG
Mjr Controls Limited PARTICIPANT_ORG
Offshore Renewable Energy Catapult PARTICIPANT_ORG

Paul Cairns PM_PER
Paul Cairns PM_PER

Subjects by relevance
  1. Wind energy
  2. Renewable energy sources
  3. Wind farms
  4. Emissions
  5. Turbines
  6. Wind power stations
  7. Wind turbines
  8. Projects
  9. Electrical installations
  10. Accumulators
  11. Electric cars
  12. Electricity

Extracted key phrases
  1. Offshore wind turbine
  2. Turbine electrical vessel
  3. Wind farm operator Xceco
  4. Offshore renewable expert
  5. Electric charge point
  6. Wind power
  7. Electrical charge connection
  8. Vessel operator tidal transit
  9. Vessel designer Artemis technology
  10. Prototype electric charging point
  11. Crew transfer vessel
  12. Vessel necessary
  13. Battery electric ctv
  14. Turbine platform
  15. Common vessel

Related Pages

UKRI project entry

UK Project Locations