List of tidal power stations

Last updated

The Rance Tidal Power Station. Rance tidal power plant.JPG
The Rance Tidal Power Station.

This article lists most power stations that run on tidal power ; both tidal range (impoundment via a barrage) and tidal stream (harnessing currents). Since tidal stream generators are an immature technology, no technology has yet emerged as the clear standard. A large variety of designs are being experimented with, with some very close to large scale deployment. Hence, the following page lists stations of different technologies. While only a few schemes are operational or under construction, many more have been proposed, however some of these plans may never be constructed.

Contents

Tidal power stations

Operational

The following table lists tidal power stations that are in operation:

StationCapacity (MW)TurbinesCountry Location CommRef
Bluemull Sound Tidal Stream Array0.33 × 100 kW Nova Innovation M100DFlag of the United Kingdom.svg United Kingdom
Flag of Scotland.svg Scotland		 60°41′01″N00°59′12″W / 60.68361°N 0.98667°W / 60.68361; -0.98667 (Bluemull Sound) 2016 [1]
EMEC Fall of Warness tidal test siteup to 101 × 2 MW Orbital O2

1 × Magallanes Renovables ATIR

 59°9′7.92″N2°49′2.28″W / 59.1522000°N 2.8173000°W / 59.1522000; -2.8173000 2007
Haishan Tidal Power Plant0.25Flag of the People's Republic of China.svg  China 28°13′52″N121°9′22″E / 28.23111°N 121.15611°E / 28.23111; 121.15611 1975 [2] [3]
Jiangxia Tidal Power Station 4.11 × 600 kW, 5 × 700 kW 28°20′34″N121°14′25″E / 28.34278°N 121.24028°E / 28.34278; 121.24028 (Jiangxia Tidal Power Station) 1980 [4] [5] [2]
Kislaya Guba Tidal Power Station 1.7Flag of Russia.svg  Russia 69°22′37″N33°04′33″E / 69.37694°N 33.07583°E / 69.37694; 33.07583 (Kislaya Guba Tidal Power Station) 1968 
LHD Tidal Current Energy Demonstration Project1.7Flag of the People's Republic of China.svg  China 30°8′15.48″N122°10′1.25″E / 30.1376333°N 122.1670139°E / 30.1376333; 122.1670139 [2]
MeyGen 64 × 1.5 MWFlag of the United Kingdom.svg  United Kingdom
Flag of Scotland.svg Scotland		 58°39′26.15″N3°7′1.55″W / 58.6572639°N 3.1170972°W / 58.6572639; -3.1170972 (Pentland firth) 2017
Minesto Vestmannasund 1.41 × 1.2 MW, 2 × 100 kW tidal kitesFlag of the Faroe Islands.svg  Faroe Islands 53°17′49.8″N4°47′57.3″W / 53.297167°N 4.799250°W / 53.297167; -4.799250 (Minesto Holyhead Deep) 2022, 2024 [6] [7]
Rance Tidal Power Station 24024 × 10 MW reversible Kaplan turbines Flag of France.svg  France 48°37′05″N02°01′24″W / 48.61806°N 2.02333°W / 48.61806; -2.02333 (Rance Tidal Power Station) 1966
renovated
2011		 [8]
Sihwa Lake Tidal Power Station 25410 × 25.4 MW bulb turbinesFlag of South Korea.svg  South Korea 37°18′47″N126°36′46″E / 37.31306°N 126.61278°E / 37.31306; 126.61278 (Sihwa Lake Tidal Power Station) 2011 [9] [10]
Uldolmok Tidal Power Station 1.5 34°32′07″N126°14′06″E / 34.53528°N 126.23500°E / 34.53528; 126.23500 (Uldolmok Tidal Power Station) 2009 [11]

Under construction

The following table lists tidal power stations that are currently under construction as of the date in each cited source.

StationCapacity (MW)Country Location StartRef
Morlais (West Anglesey Demonstration Zone)240 MW potentialFlag of the United Kingdom.svg  United Kingdom
Flag of Wales (1959-present).svg Wales		 53°18′23″N4°43′00″W / 53.30639°N 4.71667°W / 53.30639; -4.71667 (Morlais (West Anglesey Demonstration Zone)) Consented 2021
1st tidal device 2026		 [12]

Proposed

The following table lists tidal power stations that are at a proposal stage. Some of these scheme may not go ahead, but have not formally been cancelled.

StationCapacity (MW)TurbinesCountry Location Ref
EURO-TIDES project9.64 × Orbital O2 (tbc)Flag of the United Kingdom.svg  United Kingdom Fall of Warness, Orkney [13]
Garorim Bay Tidal Power Station 520Flag of South Korea.svg  South Korea Garorim Bay [9]
Gulf of Kutch Project 50Flag of India.svg  India Gulf of Kutch [14] [15]
Incheon Tidal Power Station 818 or 1,320Flag of South Korea.svg  South Korea 37°29′48″N126°20′32″E / 37.49667°N 126.34222°E / 37.49667; 126.34222 (Incheon Tidal Power Station) [9] [16]
Mezenskaya Tidal Power Plant 24,000Flag of Russia.svg  Russia Mezen Bay [17]
Penzhin Tidal Power Plant Project 89,100 Penzhin Bay  
Seastar project416 × 250 kW Nova InnovationFlag of the United Kingdom.svg  United Kingdom Fall of Warness, Orkney [18] [19]
Severn Barrage 8,640 51°21′30″N03°06′00″W / 51.35833°N 3.10000°W / 51.35833; -3.10000 (Severn Barrage_dim:8000)  
Tidal Lagoon Swansea Bay 320 Swansea Bay [20]
Tugurskaya Tidal Power Plant 3,640Flag of Russia.svg  Russia Okhotsk Sea [21]

Historical proposals

These schemes were proposed, but will not now go ahead in the form originally proposed because the developer has ceased trading, the technology is no longer being developed, or the consent has lapsed.

StationCapacity (MW)Country Location StatusRef
Alderney tidal plant400Flag of Guernsey.svg  Guernsey 49°42′52″N2°12′19″W / 49.71444°N 2.20528°W / 49.71444; -2.20528 (Alderney) OpenHydro ceased trading [22] [23]
Kaipara Tidal Power Station 200Flag of New Zealand.svg [[New Zealand|]] 36°25′S174°10′E / 36.417°S 174.167°E / -36.417; 174.167 (Kaipara Tidal Power Station) Project paused in 2013 and consent lapsed in 2021 [24]
Pempa’q In-Stream Tidal Energy Project1.26Flag of Canada (Pantone).svg  Canada 45°20′36″N64°23′34″W / 45.34333°N 64.39278°W / 45.34333; -64.39278 (Pempa’q In-Stream Tidal Energy Project) Development halted following permitting issues [25] [26] [27] [28]
Skerries Tidal Stream Array10.5Flag of the United Kingdom.svg  United Kingdom 53°26′N04°36′W / 53.433°N 4.600°W / 53.433; -4.600 (Skerries Tidal Farm) approx.MCT device no longer being developed [29]

Decommissioned

StationCapacity (MW)Country Location YearsRef
Annapolis Royal Generating Station 20Flag of Canada (Pantone).svg  Canada 44°45′07″N65°30′40″W / 44.75194°N 65.51111°W / 44.75194; -65.51111 (Annapolis Royal Generating Station) 1984-2019 [30]
Minas Passage OpenHydro 2 Minas Passage 2016-2018 [26] [31]
Eastern Scheldt Barrier Tidal Power Plant1.25 (5×0.25)Flag of the Netherlands.svg  The Netherlands 51°36′19″N03°40′59″E / 51.60528°N 3.68306°E / 51.60528; 3.68306 (Eastern Scheldt Barrier Tidal Power Plant) 2015-2023 [32] [33]
Strangford Lough SeaGen 1.2Flag of the United Kingdom.svg  United Kingdom 54°22′04″N05°32′40″W / 54.36778°N 5.54444°W / 54.36778; -5.54444 (Strangford Lough Seagen) 2008-2019 [34]

See also

Map all coordinates using OpenStreetMap

Download coordinates as:

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">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">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.

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.

<span class="mw-page-title-main">Renewable energy in Wales</span> Overview of renewable energy in Wales

In 2019, Wales generated 27% of its electricity consumption as renewable electricity, an increase from 19% in 2014. The Welsh Government set a target of 70% by 2030. In 2019, Wales was a net exporter of electricity. It produced 27.9 TWh of electricity while only consuming 14.7 TWh. The natural resource base for renewable energy is high by European standards, with the core sources being wind, wave, and tidal. Wales has a long history of renewable energy: in the 1880s, the first house in Wales with electric lighting powered from its own hydro-electric power station was in Plas Tan y Bwlch, Gwynedd. In 1963, the Ffestiniog Power Station was constructed, providing a large scale generation of hydroelectricity, and in November 1973, the Centre for Alternative Technology was opened in Machynlleth.

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.

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

References

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