Minesto

Last updated

Minesto AB
MINEST:STO
Predecessor Saab Group
Founded2007;17 years ago (2007) in Gothenburg, Sweden
ProductsTidal power kites
Website https://minesto.com

Minesto AB is a Swedish developer of electricity producing tidal kite turbines, based in Gothenburg. [1] They also have a manufacturing base in Holyhead, North Wales, [2] and a test facility at Portaferry, Northern Ireland.

Contents

The company has tested devices and developed plans to install arrays off the coast of Anglesey, North Wales and in the Faroe Islands. They are also collaborating with National Taiwan Ocean University and TCC Green Energy, a subsidiary of Taiwan Cement, to develop projects in Taiwan. [3]

Minesto was formed in 2007 from the wind department of the Swedish aerospace and defense company Saab Group. [4]

The Minesto devices somewhat resembles a plane, with a wing and control surfaces to steer the device through the water in a figure-of-eight shape. It is tethered to the seabed by a cable that also carries power and communication signals. By "flying" through the water using hydrodynamic lift, the device can travel several time faster than the current speed, allowing it to be used in areas of lower tidal currents than conventional turbines. [5] [6]

Initial development

The concept was initially developed in 2003 by the wind department of the Swedish Saab Group. Minesto was formed as a standalone company in 2007. [4]

The first sea trials of the technology was a scaled-down version of the turbine tested in Strangford Lough, Northern Ireland in 2011. This turbine had a wingspan of 3.0 m, a 1:4 prototype of a turbine with 12 m wingspan and 1 m rotor diameter. [4] [7] The kite was anchored to the seabed by a 27 m long tether, and flew in a loop approximately 20 m across the flow direction and 3 m high, with the highest point approximately 7 m below the surface. This took approximately 6-8 s to complete, with the kite flying at speeds of 2.5-5.5 m/s. This kite had a nacelle mounted below the wing, with a nine-bladed ducted turbine at the front and the control surfaces at the rear. [8]

Testing continues in Strangford Lough, focusing on 3 m wingspan prototypes. [9] In 2022, Minesto set up a framework agreement with two local marine service companies to support their activities. [10]

Holyhead Deep

In 2014, Minesto was awarded a seabed lease agreement from The Crown Estate for a 10 MW project in the Holyhead Deep. [11] [12] This is a depression in the Irish Sea to the west of the West Anglesey Demonstration Zone, now the Morlais site. It is approximately 6.5 km offshore, and was consented by Natural Resources Wales in April 2017. [13]

In 2017, Minesto submitted a scoping report for an 80 MW tidal kite array to be developed at the Holyhead Deep site. Although the company have a lease agreement for a 10 MW array, they state that the larger array would be more economical, with the levelized cost of electricity reduced by half. [12]

Between July and November 2018 the company tested a 500 kW Deep Green DG500 prototype of their tidal kite device in the Holyhead Deep. [14] [15] The turbine was connected to a buoy which analysed the power produced, but it was not connected to the GB Grid. [16] In August 2019, Minesto redeployed the Deep Green DG500 turbine in the Holyhead Deep for further testing. [17] The gravity base structure the kite was tethered to was located at 53°17′49.8″N4°47′57.3″W / 53.297167°N 4.799250°W / 53.297167; -4.799250 (Minesto Holyhead Deep) . [18]

Minesto again announced plans in September 2021 to develop the Holygead Deep tidal array, proposing to install a 1.2 MW by the end of 2022. [19] However, by March 2022 they decided to focus on their projects in the Faroe Islands, citing "supply chain issues". [20]

Faroe Islands

Two 100 kW Dragon 4 turbines were installed at Vestmannasund in the Faroe Islands in 2022, supplying electricity to the local grid via SEV. [21] These have a 4.9 m wingspan, 1.3 m diameter rotor, and weigh 2.7 tonnes. [22] They are tethered to the seabed by a 40 m long cable. [23]

In November 2023, Minesto shipped a 1.2 MW Dragon 12 turbine manufactured and tested in Sweden to the Faroes. [24] This weigh 28 tonnes, has a wingspan of 12 m, and a turbine diameter of 3.5 m. [25] In January 2024, the grid connection was installed for this and the launch and recovery system (LARS) tested. [26] [27] In February 2024, Minesto announced the Dragon 12 was successfully deployed and connected to the Faroes grid. [28]

The company have plans to build four arrays of 20–40 MW, totaling 120 MW in the Faroe Islands, reportedly supplying 40% of the islands electricity demand. [29] In February 2024, they announced more ambitious plans for 200 MW to be developed, targetting Hestfjord for the next project. [30]

Related Research Articles

<span class="mw-page-title-main">Tidal power</span> Technology to convert the energy from tides into useful forms of power

Tidal power or tidal energy is harnessed by converting energy from tides into useful forms of power, mainly electricity using various methods.

<span class="mw-page-title-main">Portaferry</span> Human settlement in Northern Ireland

Portaferry is a small town in County Down, Northern Ireland, at the southern end of the Ards Peninsula, near the Narrows at the entrance to Strangford Lough. It is home to the Exploris aquarium and is well known for the annual Gala Week Float Parade. It hosts its own small Marina, the Portaferry Marina. The Portaferry – Strangford Ferry service operates daily at 30-minute intervals between the villages of Portaferry and Strangford, less than 1500 metres apart, conveying about 500,000 passengers per annum. It had a population of 2,514 people in the 2011 Census. The town is located within the Barony of Ards Upper.

<span class="mw-page-title-main">Oosterscheldekering</span> Dutch storm surge barrier in the North Sea

The Oosterscheldekering, between the islands Schouwen-Duiveland and Noord-Beveland, is the largest of the Delta Works, a series of dams and storm surge barriers, designed to protect the Netherlands from flooding from the North Sea. The construction of the Delta Works was a response to the widespread damage and loss of life in the North Sea flood of 1953.

The Wave Hub is a floating offshore wind and wave power research project. The project is developed approximately 10 miles (16 km) off Hayle, on the north coast of Cornwall, United Kingdom. The hub was installed on the seabed in September 2010, and is a 'socket' sitting on the seabed for wave energy converters to be plugged into. It will have connections to it from arrays of up to four kinds of wave energy converter. A cable from the hub to main land will take electrical power from the devices to the electric grid. The total capacity of the hub will be 20 MWe. The estimated cost of the project is £28 million.

Verdant Power, Inc is a maker and installer of tidal power and hydroelectric systems. Their primary device is an underwater turbine, similar to a three-bladed wind turbine, that is designed to capture energy from tidal currents and (precipitation-driven) river currents. The company uses the trade term "kinetic hydropower" to distinguish their systems from those based on dam construction. The company's first project, the Roosevelt Island Tidal Energy Project, is several turbines in New York City's East River.

<span class="mw-page-title-main">European Marine Energy Centre</span>

The European Marine Energy Centre (EMEC) Ltd is a UKAS accredited test and research center focused on wave and tidal power development, based in the Orkney Islands, UK. The centre provides developers with the opportunity to test full-scale grid-connected prototype devices in wave and tidal conditions.

<span class="mw-page-title-main">SEV (company)</span> Power producer and distributor on the Faroe Islands

SEV is a power producer and distributor on the Faroe Islands. The company name is derived from the names of islands Streymoy, Eysturoy and Vágar, which established the company on 1 October 1946. All municipalities in Vágar, all in Eysturoy except for Sjóvar municipality and all municipalities in Streymoy except for Tórshavn, Kvívík and Kollafjørður met at the first establishing meeting. Later all municipalities in the Faroe Islands joined SEV. In 2015 60% of the produced electricity of SEV came from green energy sources, 17,8% came from the windmills in Neshagi and Húsahagi, 42,3% came was hydropower.

<span class="mw-page-title-main">SeaGen</span> Large-scale tidal stream generator

SeaGen was the world's first large scale commercial tidal stream generator. It was four times more powerful than any other tidal stream generator in the world at the time of installation. It was decommissioned by SIMEC Atlantis Energy Limited in summer 2019, having exported 11.6GWh to the grid since 2008.

Marine Current Turbines Ltd (MCT), was a United Kingdom-based company which that developed tidal stream generators, most notably the 1.2 MW SeaGen turbine. The company was bought by the German automation company, Siemens in 2012, who later sold the company to Atlantis Resources in 2015.

The Oyster was a hydro-electric wave energy device that used the motion of ocean waves to generate electricity. It was made up of a Power Connector Frame (PCF), which is bolted to the seabed, and a Power Capture Unit (PCU). The PCU is a hinged buoyant flap that moves back and forth with movement of the waves. The movement of the flap drives two hydraulic pistons that feed high-pressured water to an onshore hydro-electric turbine, which drives a generator to make electricity. Oyster was stationed at the European Marine Energy Centre (EMEC) at its Billia Croo site in Orkney, Scotland until the company ceased trading in 2015.

<span class="mw-page-title-main">Tidal stream generator</span> Type of tidal power generation technology

A tidal stream generator, often referred to as a tidal energy converter (TEC), is a machine that extracts energy from moving masses of water, in particular tides, although the term is often used in reference to machines designed to extract energy from the run of a river or tidal estuarine sites. Certain types of these machines function very much like underwater wind turbines and are thus often referred to as tidal turbines. They were first conceived in the 1970s during the oil crisis.

The Paimpol–Bréhat tidal farm is a tidal stream turbine demonstration site, located northeast of Île-de-Bréhat near Paimpol, Brittany, France. It was initially developed by Électricité de France (EdF), initiated in 2004 and construction work began in 2008, but the project was subsequently cancelled by EdF in 2018. This project was to use OpenHydro turbines, with two briefly installed in 2016, but they were later removed.

Energy in the Faroe Islands is produced primarily from imported fossil fuels, with further contributions from hydro and wind power. Oil products are the main energy source, mainly consumed by fishing vessels and sea transport. Electricity is produced by oil, hydropower and wind farms, mainly by SEV, which is owned by all the municipalities of the Faroe Islands. The Faroe Islands are not connected by power lines with continental Europe, and thus the archipelago cannot import or export electricity.

MeyGen is a tidal stream energy plant in the north of Scotland. The project is located in the Pentland Firth, specifically the Inner Sound between the Island of Stroma and the Scottish mainland.

<span class="mw-page-title-main">SIMEC Atlantis Energy</span>

SIMEC Atlantis Energy is a renewable energy company. It is incorporated in Singapore, but its operational headquarters are in Edinburgh, Scotland, United Kingdom. Initially, it was a developer of the tidal power turbines and projects, but after becoming a part of GFG Alliance it has expanded its business also to the waste-to-energy and hydropower.

<span class="mw-page-title-main">Orbital O2</span> Orbital O2 floating tidal stream turbine

Orbital Marine Power is a Scottish renewable energy company focused on the development and global deployment of its pioneering floating turbine technology. The O2 is Orbital's first commercial turbine and represents the culmination of more than 15 years of world leading product development in the UK. The 74 m long turbine is expected to operate in the waters off Orkney for the next 15–20 years with the capacity to meet the annual electricity demand of around 2,000 UK homes with clean, predictable power from the fast-flowing waters while offsetting approximately 2,200 tonnes of CO2 production per year. In a further ground-breaking element of the project, the O2 will provide power to the European Marine Energy Centre's onshore electrolyser to generate green hydrogen that will be used to demonstrate decarbonisation of wider energy requirements.

Morlais is a grid connected tidal stream energy project located in the Irish Sea just off the west coast of Holy Island, Anglesey, Wales. It is being developed by the social enterprise agency Menter Môn. The site has the potential for up to 240 MW of renewable energy to be harnessed from the tides, using a mixture of seabed mounted and floating tidal energy devices from different companies.

Nova Innovation Ltd is a Scottish developer of tidal stream turbines, based in Leith, Edinburgh. They deployed their first 30 kW turbine in 2014. Since then, they have developed and tested a 100 kW seabed mounded two-bladed horizontal-axis tidal stream turbine, and plan to scale this up in future. Up to six of these turbines have been deployed simultaneously in the Bluemull Sound, Shetland since 2016.

Many tidal stream generators have been developed over the years to harness the power of tidal currents flowing around coastlines. These are also called tidal stream turbines (TST), tidal energy converters (TEC), or marine hydro-kinetic (MHK) generation. These turbines operate on a similar principle to wind turbines, but are designed to work in a fluid approximately 800 times more dense than air which is moving at a slower velocity. Note that tidal barrages or lagoons operate on a different principle, generating power by impounding the rising and falling tide.

<span class="mw-page-title-main">OpenHydro</span>

OpenHydro Group Ltd was an Irish developer of tidal stream turbines, established in 2004. It was acquired by Naval Energies in 2013, however, Naval Energies decided in July 2018 to stop developing tidal turbines and focus on floating wind turbines. The company subsequently went into liquidation with debts of about €280m.

References

  1. "Contact". Minesto. Retrieved 1 January 2024.
  2. "Minesto's Holyhead Assembly Hall is now fully operational". Marine Energy Wales. 7 October 2020. Retrieved 1 January 2024.
  3. "Swedish tidal energy firm Minesto to fly underwater kite in Taiwanese waters". DIGITIMES. 23 November 2023. Retrieved 28 January 2024.
  4. 1 2 3 Genuth, Iddo (19 November 2013). "Deep Green – Underwater Kite Producing Electricity Tested in Northern Ireland". TFOT. Retrieved 1 January 2024.
  5. Rayner, Tristan (5 September 2018). "How Minesto's Underwater Planes Are Plugging Into Untapped Tidal Energy". Digital for Good | RESET.ORG. Retrieved 28 January 2024.
  6. Malayil, Jijo (10 November 2023). "Massive Swedish tidal kite, 1.2MW Dragon 12 tests ready for operation". interestingengineering.com. Retrieved 28 January 2024.
  7. Edwards, Lin; Phys.org. "Deep Green underwater kite to generate electricity (w/ Video)". phys.org. Retrieved 1 January 2024.
  8. Schmitt, Pál; Pine, Matthew K.; Culloch, Ross M.; Lieber, Lilian; Kregting, Louise T. (1 November 2018). "Noise characterization of a subsea tidal kite". The Journal of the Acoustical Society of America. 144 (5): EL441–EL446. doi:10.1121/1.5080268. ISSN   0001-4966.
  9. "Strangford Lough test and demonstration site". Minesto. 1 January 2023. Retrieved 18 February 2024.
  10. Garanovic, Amir (15 February 2022). "Minesto hires tidal test support crew". Offshore Energy. Retrieved 18 February 2024.
  11. "Crown Estate approves seabed rights for new wave and tidal current projects". International Water Power and Dam Construction. 8 July 2014. Retrieved 28 January 2024.
  12. 1 2 "Minesto aims to boost the capacity of its Holyhead Deep project to 80MW". www.imeche.org. Retrieved 28 January 2024.
  13. "World-first Anglesey 'sea kite' tidal project approved". BBC News. 19 April 2017. Retrieved 28 January 2024.
  14. "Minesto Holyhead Deep - Non-grid connected DG500". tethys.pnnl.gov. Retrieved 28 January 2024.
  15. McCue, Dan (29 May 2018). "Second Phase of Holyhead Deep Installation Now Complete". Renewable Energy Magazine. Retrieved 28 January 2024.
  16. Harris, Michael (5 June 2018). "Minesto's Holyhead Deep tidal generating site ready to begin production". Hydro Review. Retrieved 1 January 2024.
  17. "Minesto flies Wales tidal kite". ReNEWS.biz. 15 August 2019. Retrieved 1 January 2024.
  18. "Deep Green Project: Installation Operations, August 2019 | AWJ Marine". www.awjmarine.co.uk. Retrieved 28 January 2024.
  19. Chandler, Matthew (20 September 2021). "New underwater power plant set to be installed along Anglesey coastline". North Wales Chronicle. Retrieved 28 January 2024.
  20. Hughes, Owen (18 March 2022). "'Supply chain delays' hit plan for new underwater power plants off Anglesey this year". Business Live. Retrieved 28 January 2024.
  21. Garanovic, Amir (7 September 2022). "Minesto starts commissioning second 'Dragon 4' tidal power plant". Offshore Energy. Retrieved 1 January 2024.
  22. "Dragon 4". Minesto. Retrieved 28 January 2024.
  23. "The underwater 'kites' generating electricity as they move". BBC News. 29 November 2021. Retrieved 2 January 2024.
  24. Garanovic, Amir (9 November 2023). "Minesto's 1.2MW tidal energy device on its way to Faroe Islands". Offshore Energy. Retrieved 1 January 2024.
  25. "Dragon 12". Minesto. Retrieved 28 January 2024.
  26. Maksumic, Zerina (9 January 2024). "Minesto's utility-scale tidal energy kite ready to start delivering". Offshore Energy. Retrieved 28 January 2024.
  27. Maksumic, Zerina (11 January 2024). "Minesto performs launch and recovery for megawatt-scale tidal energy kite". Offshore Energy. Retrieved 28 January 2024.
  28. "28-ton, 1.2-megawatt tidal kite is now exporting power to the grid". New Atlas. 12 February 2024. Retrieved 12 February 2024.
  29. Garanovic, Amir (13 April 2022). "Minesto outlines tidal array build-out plan to bolster energy transition of the Faroe Islands". Offshore Energy. Retrieved 1 January 2024.
  30. "Minesto upgrades Faroe tidal plan to 200MW". ReNEWS.biz. 21 February 2024. Retrieved 5 March 2024.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.