AWS Ocean Energy

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AWS Ocean Energy
FoundedMay 2004;20 years ago (May 2004) in Inverness, Scotland, UK
FounderSimon Grey
Headquarters
Inverness
,
Scotland, UK
Products Wave energy converters
Website awsocean.com

AWS Ocean Energy Ltd (or just AWS) is a Scottish wave energy device developer, based in Dochfour near Inverness, Highland. The company has developed and tested several concepts, primarily the Archimedes Waveswing (AWS) after which the company is named.

Contents

Between 2015 and 2022, AWS received three rounds of funding through the Wave Energy Scotland Novel Wave Energy Convertor programme to develop a series of small-scale prototypes, the largest scale device was tested at EMEC in 2022, demonstrating a power output of 16 kW.

An American subsidiary, Waveswing America, came third in the 2016 Wave Energy Prize, run by the United States Department of Energy.

History

The company was founded in May 2004, [1] acquiring the intellectual property of the Archimedes Wave Swing technology that had been developed by Teamwork Technology BV in the Netherlands, and tested at Aguçadoura, Portugal in 2004. [2] These tests demonstrated the direct-drive permanent-magnet linear generator technology. [3]

AWS developed a Mark II Waveswing over the following years, including 1:50 scale testing. However, the projected costs were 500–700 £/MWh for the first farms and seen as unlikely to reach commercial viability, therefore development was halted in 2008. [4] AWS instead focused development on a surface floating variant of the Waveswing called the ASW-III.

In September 2014, the original Waveswing concept was revisited, with further innovations identified that could reduce costs and allow down-scaling of the device. AWS then re-focused on the development of the Archimedes Waveswing technology. [4]

AWS-III

The AWS-III concept was a multi-cell ring-shaped device. [5] This was similar to the CLAM design invented in 1983 by Norman Bellamy at Lanchester Polytechnic, of which AWS acquired the IP. [4] In 2010, a 1:9 scale prototype of the AWS-III was tested in Loch Ness, echoing the earlier testing of a circular SEA-Clam in Loch Ness in the 1980s. [5] The full-scale AWS-III device was projected to be 60 m diameter, with a rated power of 2.5 MW per unit. [5]

Continued development of the AWS-III led to alternative configurations, including a twin-hull Proa design, with the wave absorbers on one side. [4]

In 2011, Alstom acquired a 40% stake in AWS, complementing their investment in tidal and offshore wind. [6] In January 2012, SSE Renewables and Alstom set up a joint-venture to develop the Costa Head wave farm off Orkney, which was proposed to use up to 80 of the AWS-III devices, generating 200 MW. [7] However, due to market uncertainties including utility companies withdrawing from wave energy and uncertainty over reform of the electricity market, Alstom stopped investing in AWS in March 2013. [4]

In 2014, AWS tested a half-scale prototype cell of the AWS-III at Lyness in Orkney. The device used diaphragms manufacture from 'bullet proof vest material' to capture power from the waves and power pressurised air turbines to generate electricity. [8] [4]

Further development of Archimedes Waveswing in WES NWEC programme

Between 2015 and 2022, the AWS concept was further developed in the Wave Energy Scotland (WES) Novel Wave Energy Convertor (NWEC) programme, which used pre-commercial procurement to fund up to 100% of the technology development costs.

In November 2015, WES announced that AWS was one of eight companies successful in being awarded £284k funding for Stage 1 concept design of an Advanced Archimedes Waveswing through the NWEC programme. [9] [10] They successfully completed this, and in April 2017 were awarded a further £721k for Stage 2 design optimisation. [11]

In January 2019, AWS along with Mocean Energy were selected to progress to Stage 3, to develop and test half-scale devices at the European Marine Energy Centre in Orkney, sharing £7.7m in funding. [12] The device was tested at the Scapa Flow non-grid-connected test site from April 2022. [13] The device was 4 m in diameter, 7 m high, and weighed around 50 t. It is moored via a single tether to a gravity base anchor. [13]

Wave Energy Prize

The United States Department of Energy (DOE) announced in 2015 a competition to improve the efficiency of wave energy converter (WEC) devices. Waveswing America was one of 92 entrants, and in March 2016 qualified as one of nine finalists to receive up to $125,000 seed funding to develop and test a 1:20 scale model. [14] These models were tested at the Naval Surface Warfare Center’s Maneuvering and Seakeeping (MASK) wave basin at Carderock, Maryland. [15] In November 2016, after an 18-month competition, the results were announced. Waveswing America came in third place and was awarded a $250,000 cash prize. [16]

Waveswing technology

The Archimedes Waveswing is a submerged device, consisting of a two-part gas-filled "piston" which moves as the waves pass over it. It incorporates a direct-drive linear generator to produce electricity. The initial Wave Swing tested in 2004 was mounted on a submersible pontoon with an external frame. Both of these have been removed to simplify the device, and it is now tethered to the sea floor via a suitable anchor with pressure compensation to account for changes in tidal height. [2] [17]

The device consists of a cap like top section, the "floater", above a "silo", with a rolling seal between. When the crest of a wave passes over the device, the increased pressure pushes floater down, compressing the air inside the silo like a spring. The linear generator is mounted in the middle of the cylinder, producing electricity on both the downward and upward stroke. [17] [18]

Combined wind-wave platforms

Following a report by Offshore Wind Consultants, Wave Energy Scotland explored the potential for multi-use platforms combining wave energy and floating offshore wind. They conducted tests at FloWave of a triangular semi-submerged floating platform, incorporating multiple wave energy devices based on the Archimedes Waveswing. [19]

Related Research Articles

Wave Dragon is a concept wave energy converter of the overtopping type, developed by the Danish company Wave Dragon Aps. Incoming waves flow up a ramp into a reservoir, the water the drains back to sea level though a hydro-electric turbine, generating electricity. "Reflector arms" are used to focus incoming waves, to channel the waves towards the ramp, increasing the energy captured.

<span class="mw-page-title-main">Pelamis Wave Energy Converter</span> Technology that used the motion of ocean surface waves to create electricity

The Pelamis Wave Energy Converter was a technology that used the motion of ocean surface waves to create electricity. The machine was made up of connected sections which flex and bend as waves pass; it is this motion which is used to generate electricity.

<span class="mw-page-title-main">Renewable energy in Scotland</span>

The production of renewable energy in Scotland is a topic that came to the fore in technical, economic, and political terms during the opening years of the 21st century. The natural resource base for renewable energy is high by European, and even global standards, with the most important potential sources being wind, wave, and tide. Renewables generate almost all of Scotland's electricity, mostly from the country's wind power.

An OE Buoy or Ocean Energy Buoy is a floating wave power device that uses an Oscillating Water Column design. It is being developed by Irish company Ocean Energy Ltd., based in Cork, in collaboration with the Hydraulics and Maritime Research Centre at University College Cork, Queen's University Belfast, and Marine Institute Ireland.

<span class="mw-page-title-main">CETO</span> Submerged wave power technology

CETO is a wave-energy technology that converts kinetic energy from ocean swell into electrical power and directly desalinates freshwater through reverse osmosis. The technology was developed and tested onshore and offshore in Fremantle, Western Australia. In early 2015 a CETO 5 production installation was commissioned and connected to the grid. As of January 2016 all the electricity generated is being purchased to contribute towards the power requirements of HMAS Stirling naval base at Garden Island, Western Australia. Some of the energy will also be used directly to desalinate water.

<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 centre focused on wave and tidal power development, based in the Orkney Islands off the mainland of Scotland. The centre provides developers with the opportunity to test full-scale grid-connected prototype devices in wave and tidal conditions, at pre-consented test sites. EMEC also has sites for testing smaller-scale prototypes in more sheltered conditions.

Pelamis Wave Power designed and manufactured the Pelamis Wave Energy Converter – a technology that uses the motion of ocean surface waves to create electricity. The company was established in 1998 and had offices and fabrication facilities in Leith Docks, Edinburgh, Scotland. It went into administration in November 2014.

<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 Saltire Prize, named after the flag of Scotland, was a national award for advances in the commercial development of marine energy.

Wave Energy Scotland (WES) is a technology development body set up by the Scottish Government to facilitate the development of wave energy in Scotland. It was set up in 2015 and is a subsidiary of Highlands and Islands Enterprise (HIE) based in Inverness.

<span class="mw-page-title-main">MARMOK-A-5</span> Offshore electrical power generator

MARMOK-A-5 is an offshore electrical power generator that uses wave energy to create electricity. This device is a spar buoy installed in the maritime testing site BiMEP, in the Bay of Biscay. It is the first grid-connected maritime generator in Spain, and one of the first in the world.

<span class="mw-page-title-main">Orbital Marine Power</span> Scottish renewable energy company

Orbital Marine Power is a Scottish renewable energy company focused on the development and global deployment of floating tidal stream turbine technology. The company was founded in 2002, and as of 2024 has built and tested three different turbines.

Mocean EnergyLtd. is a wave energy technology developer, based in Edinburgh and Aberdeen. They are developing a hinged-raft attenuator wave energy converter (WEC) at various scales for different markets.

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.

CorPower Ocean AB is a wave energy device developer, headquartered in Stockholm, Sweden. They also have offices in Oslo, Viana do Castelo, and Stromness. The office in Viana do Castelo is an R&D centre that also serves as the manufacturing and service centre for the wave energy converters (WEC).

<span class="mw-page-title-main">Aguçadoura test site</span> Portuguese offshore renewable energy test site

The Aguçadoura test site is an offshore location in the north of Portugal where grid connected offshore renewable energy devices have been tested, for research and project demonstration. It is about 5 km (3 miles) off the coast of Aguçadoura, Póvoa de Varzim, about 35 km NNE of central Porto.

<span class="mw-page-title-main">Wello Penguin</span> Wave power device

The Penguin is a wave energy converter (WEC) which was developed by Finnish company Wello Oy between 2008 and 2023. Two full-scale device were constructed, and tested in Scotland and Spain respectively, although both tests ended in difficulties.

WaveRoller is a wave energy converter (WEC) developed by Finish company AW-Energy Oy since 2002, although the initial concept was developed between 1993 and 1999.

References

  1. "AWS OCEAN ENERGY LIMITED overview - Find and update company information". GOV.UK. Retrieved 12 May 2024.
  2. 1 2 Prado, M.; Polinder, H. (1 January 2013), Mueller, Markus; Polinder, Henk (eds.), "9 - Case study of the Archimedes Wave Swing (AWS) direct drive wave energy pilot plant", Electrical Drives for Direct Drive Renewable Energy Systems, Woodhead Publishing Series in Energy, Woodhead Publishing, pp. 195–218, ISBN   978-1-84569-783-9 , retrieved 3 March 2024
  3. Centre for Renewable Energy Sources (2006). Ocean Energy Conversion in Europe, Recent advancements and prospects (PDF) (Report) via Vlaams Instituut voor de Zee.
  4. 1 2 3 4 5 6 Grey, Simon (11 February 2016). AWS Wave Power Development Experience (Report). Wave Energy Scotland. Retrieved 8 June 2024.
  5. 1 2 3 "AWS tests wave energy prototype in Loch Ness". Renewable Energy Magazine. 25 May 2010. Retrieved 8 June 2024.
  6. Toni (22 June 2011). "Alstom enters wave energy market, takes 40 percent of Scottish company" . Retrieved 8 June 2024.
  7. "AWS set for global lead in wave energy". Inverness Courier. 25 January 2012. Retrieved 8 June 2024.
  8. "AWS-III Wave Power Generator Successfully Tested". Offshore Energy. 22 July 2014. Retrieved 9 June 2024.
  9. "Search for novel wave energy converters results in £2.25m award". Wave Energy Scotland. 2 November 2015. Retrieved 12 May 2024.
  10. "Novel wave energy projects to receive funding". BBC News. 2 November 2015. Retrieved 12 May 2024.
  11. "Wave energy technology projects awarded £2.84m". Wave Energy Scotland. 27 April 2017. Retrieved 12 May 2024.
  12. Gates, Philip (8 January 2019). "Scots firms awarded £7.7m to build groundbreaking wave energy machines". businessInsider. Retrieved 12 May 2024.
  13. 1 2 "AWS Ocean Energy starts shakedown trial for Waveswing converter". Power Engineering International. 8 April 2022. Retrieved 12 May 2024.
  14. "Update on DOE's Wave Energy Prize". Hydro Review. 1 April 2016. Retrieved 9 June 2024.
  15. "Waveswing America starts WEC construction". Offshore Energy. 10 May 2016. Retrieved 9 June 2024.
  16. "AquaHarmonics Wins the Energy Department's Wave Energy Prize". Energy.gov. 16 November 2016. Retrieved 9 June 2024.
  17. 1 2 Grey, Simon (11 February 2016). Technology Description and Status – Waveswing (Report). Wave Energy Scotland.
  18. Altman, Andy (14 November 2022). "This Underwater Buoy Could Power Homes By Capturing The Ocean's Power". CNET. Retrieved 9 June 2024.
  19. Walker, Peter A. (15 September 2023). "Tests begin on combined wind and wave energy platforms". businessInsider. Retrieved 8 June 2024.
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