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8/7/2019 Ocean Energy Systems 2010 Annual Report
http://slidepdf.com/reader/full/ocean-energy-systems-2010-annual-report 1/6
Wave Energy Centre, Av Manuel da Maia, nº36-r/c dto, 1100 Lisbon, Portugal
For more information about the OES-IA lease visit the website www.iea-oceans.or
I M P LEM EN TI N G A G REEM EN T O N O C E A N EN ERG Y SYSTEM S
A N N E X I : I N F O R M A T I O N C O L L A T I O N A N D D I S S E M I N A T I O N
Delegates from the member countries of the IEA
Implementing Agreement on Ocean Energy Systems
participated in the 19th Executive Committee (ExCo)
Meeting, in Dublin, Ireland (30 Sept – 1 Oct 2010), and
exchanged information on governmental initiatives,
R&D activities and technology demonstration on ocean
energy.
Annex I of the OES-IA work program is the centralinformation collation and dissemination Annex on the
technical, economic, environmental and social aspects
of ocean energy systems. It also contributes to the
definition of future priorities for the Implementing
Agreement as a whole. This bulletin highlights the
2010 achievements on ocean energy presented in the
19th ExCo meeting.
Indonesia was invited as an observer countr .
IntroductionMember countries
2001 Denmark
Portugal
United Kingdom
2002 Ireland
Japan
2003 Canada
2005 USA
2006 Belgium
2007 Germany
Mexico
Norway
2008 Spain
Italy
New Zealand
Sweden
2009 Australia
2010 Korea
South Africa
October 201 0
MISSION
To facilitate and
co‐ordinate ocean energy
research, development
and demonstration
through international
co‐operation and
information exchange,
leading to the
deployment and
commercialisation of
sustainable,
efficient, reliable,
cost‐competitive and
environmentally sound
ocean energy
technologies.
AustraliaTom Denniss, Oceanlinx
Although there is no government program specifically
for ocean energy in Australia, the Department of
Resources, Energy, and Tourism has expressed a desire
to see an Australian ocean energy industry association
established.
Ocean energy activity in Australia continues to increase:
Ocean Power Technologies is developing a project in
Portland with funding from the Australian Government.
Oceanlinx’s 1:3 scale floating wave energy device - the
MK3PC – was tested for 3 months, in 2010, and
operated successfully until its moorings were damaged
in extreme sea conditions in May. The first ocean
deployment of BioPower Systems technology is planned
to occur near Port Fairy, Victoria, and currently the
conversion modules are being tested in a factory. Wave
Rider Energy Pty Ltd is planning to launch a pilot plant
in South Australia. Carnegie Corporation continues to
develop its 5MW project off Garden Island, in Western
Australia, and has also announced the signing of aMemorandum of Understanding (MOU) for a three-stage
15MW project on La Reunion in the Indian Ocean.
Perpetuwave has developed a 1:4 scaled concept
prototype, which has been tested in bay type wave
conditions in Australia.
New Zealandohn Huckerby, AWATEA
The New Zealand Government committed to the 4th round of
the Marine Energy Deployment Fund (MEDF), which is expected
to be announced very soon, and is continuing to support the
Aotearoa Wave and Tidal Energy Association. The Government
continues to fund three marine energy projects: The Wave
Energy Technology – New Zealand (WET-NZ) R&D program
conducted by two parties, Industrial Research Limited and
Power Projects Limited, and two other R&D projects
conducted by the National Institute of Water andAtmospheric Research (NIWA) on tidal energy optimization
and on extreme wave statistics.
WET-NZ’s 2 kW 1:4 scale prototype was deployed in late
November 2009. Final design for the 20 kW 1:2 scale
prototype has been completed and building is planned to
start in November. WET-NZ has been granted resource
consents for two sites in New Zealand. Other companies
which have announced plans for consent applications or
received consents include Energy Pacifica, Neptune Power
and Crest Energy Kaipara Limited.
Chatham Islands Marine Energy is waiting for resource
consent. The project consists in a Wavegen LIMPET type
device to be installed on the main Chatham Island (800 km
east of NZ) and was granted NZ$ 2.16 million in the 3rd
Round of MEDF funding in July 2010.
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Page 2 Information Exchange
KoreaKeyyong Hong, KORDI
The ocean energy research activity in Korea has been
increased steeply in recent years mainly because of
investment expansion in renewable energy of Korean
Government. The total 2010 Budget for Ocean Energy
R&D was 14,780 mWon. In Korea, a National Strategy
for Ocean Energy Development Promotion has been
launched based on 3 stages of development for short
(2008-2012), medium (2013-2020) and long term
(2021-2030) projects.
Several wave projects are presently running with
funding from the Ministry of Land, Transport and
Maritime Affairs (MLTM) or from the Ministry of
Knowledge Economy (MKE). The Yongsoo 500kWOscillating Water Column (OWC) pilot plant developed
by the Maritime & Ocean Engineering Research
Institute (MOERI) is expected to be installed on Jeju
island in 2011; other MOERI projects include a 250 kW
overtopping device named “Reef with Vanes”, a 3-year
research project that will end in 2010 and a 300 kW
“Pendulum WEC” project. Two further prototypes are
planned for 2011, a floating device named “Variable
Liquid Column Oscillator” (KEPRI), and a floating device
“Hydraulic Pumping WEC” (Taekyung Ind.).
The 254 MW Sihwa tidal barrage power plant, which was
initiated in 2005, is expected to be operational in 2011.
apanYasuyuki Ikegami, Saga University
An important new initiative in 2010 was the development
of a technology Roadmap for Ocean Energy prepared by
the Japanese Ocean Energy Association (OEA-J) which
includes targets for wave, current & tidal and ocean
thermal energy conversion (OTEC).
Another governmental initiative was the release of the
White Paper on Renewable Energy Technology by the New
Energy and Industrial Technology Development
Organization (NEDO), in which wave energy and OTEC are
two of the 10 key topics of the document. In 2009, NEDO
started the program “Advanced Research on Ocean
Renewable Energy”, in order to support the study and
development of ocean energy for the first time.
IndonesiaProf. Mukhtasor, National Energy Council
The National Energy Council (NEC) is reviewing the
current energy policy and intends to increase the role of
ocean energy in the energy mix for 2010-2050. The
Agency for Assessment and Application of Technologies
(BPPT) coordinated by the Ministry of Research and
Technology has carried out research on wave and tidal
current energy systems. The Indonesian Ocean Energy
Association (IOEA) is currently being formed to foster
R&D on ocean energy.
The ocean energy resources in Indonesia have been
assessed: more than 15 straits or channels have been
identified as potential location for tidal current energy
systems; three locations are candidate for ocean thermal
energy conversion (OTEC) developments.
Recent developments in ocean energy include a marine
current 2 kW project operated by the Indonesian
Hydrodynamics Laboratory in Flores; the 100 kW Koboldprototype from Ponte di Archimede to be installed in East
Lombok, a 100 kW OTEC project in North Bali and an
Oscillating Water Column (OWC) in Yogyakarta,
coordinated by BPPT.Estimated Ocean Energy Resources in Korea
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Page 3 Information Exchange
ItalyAntónio Fiorentino, Ponte di Archimede
In the scope of a joint project set up in 2005 between
Ponte di Archimede International and UNIDO, a Kobold
turbine project is being developed in Indonesia, to beinstalled near Lombok Island.
Further, the development of the next generation o
Kobold turbine is pursued by the BLUETEC project, based
on four 250 kW rated Kobold turbines (total 1 MW)
installed on a floating platform. The first BLUETEC plant
is planned to be installed in the Strait of Messina and, in
a second phase, towed and installed in Pentland Firth
(North of Scotland).
PortugalAna Brito Melo, Wave Energy Centre
Two years after the official announcement of the Pilot
Zone for wave energy deployment, the contract between
the government and REN (the Transmission SystemOperator) was signed on 20 October 2010.
A new initiative by EDP, EFACEC Engineering, Martifer
Renewables and MIT Portugal was launched in 2009 to
stimulate the collective efficiency, the “Competitiveness
and Technology Centre for Energy” – ENERGYIN. One o
the “anchor” projects of this initiative is the creation of
the Offshore Energy Institute, initiated in 2010.
The 400kW Oscillating Water Column (OWC) pilot plant
on the Island of Pico, Azores, has fed increasing amounts
of electricity into the electrical grid, yielding more than
850 operational hours in 2010. It continues to be a
platform of world-wide significance for the technology
learning process, R&D activities and training. The plant is
designed to host a second turbo-generation group,
which made it possible to be included in a European
infrastructures network (MariNET) of large importance to
the sector.
Eneólica initiated a wave energy project in Peniche
(Central Portugal) with the Finnish technology WaveRoller
with European funding. AW-Energy started theconstruction of the prototype and baseline environmental
studies were initiated in 2010 by the Wave Energy Centre.
The project has strong local support of the Municipality
of Peniche, the “Capital of Surf”.
Spainosé Luis Villate, Tecnalia
The Spanish Government has recently announced targets
for ocean energy in the “Renewable Energy Plan 2011-
2020”: The first 10MW of installed ocean power areexpected by 2016 and a target of 100MW by 2020.
An important R&D project – OceanLider - was approved
at the end of 2009, funded by the Ministry of Science
and Innovation. This 30M€ project is led by “Iberdrola
Ingeniería y Construcción” and covers several R&D
activities: resource assessment, O&M, technology, grid
connection and environmental aspects. The project has
duration of 40 months and 20 industrial partners and 24
research centres are participating.
A new EU FP7 (Seventh Framework Programme) funded
project – The Marine Renewable Integrated Application
Platform (MARINA PLATFORM )) - led by the Spanish
company ACCIONA-Energy started in January 2010.
Several wave energy projects are still in progress: the
Biscay Marine Energy Platform (bimep), Mutriku OWC
breakwater and the “PIPO” wave energy converter on the
Canary Islands. IBERDROLA is very active in
demonstration wave and tidal projects in the United
Kingdom.
BLUETEC concept
with Kobold turbines
3r INTERNATIONAL CONFERENCE AND EXHIBITION on
Ocean Energy
The International Conference on Ocean Energy is
organised every two years. The third edition of this
conference, ICOE 2010 was held in Bilbao, Spain at the
Bilbao Exhibition Centre from 6 – 8 October 2010,
organized by EVE and Tecnalia. This event was
sponsored by the OES-IA. At this conference, the main
players in the field of wave and tidal energy
technology, as well as leaders of companies, engaged
in offshore wind and marine activities, shared
progresses in the field.
Please visit the site at: http://www.icoe2010bilbao.net
www.ewtec.org
The Ninth European Wave and Tidal Energy Conference
and exhibition (EWTEC 2011), will be held from 5-9September 2011 at the University of Southampton, UK.
8/7/2019 Ocean Energy Systems 2010 Annual Report
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NorwayHarald Rikheim, Statkraft
Norway has no special policies or programs dedicated to
ocean energy, but ocean energy is included in moregeneral renewable energy policies and programs. A
Prototype of Hydra Tidal (Morild) was launched on the
Lofoten Islands in September 2010 with 4 M€ funding by
Enova and Innovation Norway. Also Langlee Wave Power
received support from the Research Council of Norway
for its development.
Hammerfest Strøm is a long time player in the tidal
energy scene. After 4 years of operation of the 300 kW
Hammerfest Strøm’s tidal device installed in 2003, an
upgraded prototype was installed in the summer of 2009.
The company is now based in Scotland and has recently
received Carbon Trust funding for their 1 MW prototype
which will be tested at the European Marine Energy
Centre (EMEC).
Statkraft Osmotic Power prototype started operation in
2009 and the next step is a 2 MW pilot installation.
Vattenfall, together with Tussa Kraft, is testing the
Swedish SeaBased concept in Runde, on the west coast.
The new Fred Olsen “BOLT” full scale device is
undergoing sea trials off the Norwegian coast.
Page 4 Information Exchange
SwedenSusanna Widstrand, Swedish Energy Agency
Progress in wave energy during 2010 has been
supported by the Swedish Energy Agency. The secondphase of the Centre for Renewable Electrical Conversion
(4.85 M€ fund for 2009 – 2013) led by Uppsala
University, involving basic research in wave and marine
currents, is now very active.
The wave energy Lysekil project (2006 – 2010),
consisting of ten linear generators, also led by Uppsala
University, has presently four linear generators
installed. The wave energy Islandsberg project (2007-
2010), led by Seabased AB (4x20 kW and 1x50 kW) to
be grid connected, has just launched one generator.
DenmarkKim Nielsen, Ramboll
Important initiatives in 2010 for wave energy
development include the Danish Test site for Wave
Energy Conversion (DanWEC), set up in Hanstholm, and
the creation of Lindø Offshore Renewables Center
(LORC), a science and development centre for offshore
renewables.
Several Danish wave energy companies are pursuing
their developments: Wave Star A/S prototype has been
operating in the North Sea in Hanstholm during 2010.
Floating Power Plant started a second test period in the
spring of 2010 including the installation of 3 wind
turbines for testing the combination of wind and wave
power. The Dexa wave energy device has operated
during 10 months in Nissum Bredning and presently a
larger scale model is prepared for testing at DanWEC
Hanstholm. A 1:10 scale model of the Leacon device is
under construction and is now expected to be installed
in the spring of 2011 in Nissum Bredning.
Poseidon - Combines Wind and waves
Courtesy of Floating Power Plant technology
(www.floatingpowerplant.com )
Hammerfest Strøm
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IrelandEoin Sweeney, Sustainable Energy Authority of
Ireland (SEAI)
Ireland has a National Strategy for Ocean Energy, which
was prepared in 2006 by the Marine Institute and SEAI:
Targets for the use of ocean energy have increased from
initially 200 MW to 500 MW by 2020.
SEAI is developing a full scale ocean site, which is
proposed to be located west of Belmullet, Mayo – The
Atlantic Marine Energy Test Site (AMETS). A 1:4 scale
wave energy test site has been in place in Galway Bay. It
is also being planned to relocate and expand the
University College Cork Hydraulics and Maritime
Research Centre (HMRC) as part of the new Maritime and
Energy Research Campus in Cork.
During 2010 a Strategic Environmental Assessment of
Wave, Tidal and Offshore Wind Development in Irish
waters was completed. Other developments in Ireland
include two studies: “Modelling connections for Offshore
Wind in the Irish Sea” and “Economic Benefits of Ocean
Energy Development”.
Further developments include the “Review of
Engineering & Specialist Support Requirements for the
Ocean Energy Sector”, published in June 2009,
commissioned by the Sustainable Energy Authority of Ireland’s Ocean Energy Development Unit (OEDU).
Page 5 Information Exchange
United KingdomAlan Morgan, Department of Energy and Climate
Change (DECC) A Strategic Environmental Assessment (SEA) for Wave and
Tidal energy in English and Welsh waters is underway and
should be completed early 2011. DECC and the Scottish
Government undertook a study on the Economics of wave
and tidal energy in the UK, which is expected to be
published later 2010.
The Crown Estate announced the names of the successful
bidders for the world’s first commercial wave and tidal
leasing round in March, for ten sites in Scotland’s
Pentland Firth and Orkney waters. 1.2 GW is proposed by
the developers for 2020.
The successful recipients of the £22 million Marine
Renewable Proving Fund (MRPF) were announced in
February: Atlantis Resources, Aquamarine Power,
Hammerfest Strom UK, Marine Current Turbines, Pelamis
Wave Power and Voith Hydro.
The European Marine Energy Centre (EMEC) continues to
expand, with three additional grid connected berths (2
tidal, 1 wave) and a four berth (2 tidal, 2 wave) non-grid
connected nursery sites.
Aquamarine’s device, Oyster 1, installed in EMEC in 2009,
is currently undergoing sea trials and planning the design
of the next-generation Oyster 2. The Pelamis P2, 750kW
machine completed its first set of trials in the outer
reaches of the Firth of Forth. Atlantis successful deployed
their AK1000 (1MW) turbine at EMEC during August 2010.
Rolls Royce/Tidal Generation Ltd is currently undergoing
sea trials at EMEC of its 500kW turbine. The Marine
Current Turbines Tidal stream project “SEAGEN”,
continues to successfully operate.
The pioneering Wave Hub marine energy project has been
installed on the seabed, 16 kilometers offshore. WaveHub is creating the world’s largest test site for wave
energy technology by building a grid-connected socket on
the seabed off the coast of Cornwall in South West
England, to which wave power devices can be connected
and their performance evaluated. There are four berths
available each covering two square kilometers. Wave Hub
will have an initial maximum capacity of 20MW but has
been designed with the potential to scale up to 50MW in
the future.SeaGen tidal energy
system, of Marine
Current Turbines Ltd
Strangford Lough
(UK-Northern Ireland)
Comm ercial Deployment of Ocean Energy
29th September 2010, Engineers Ireland
To position industry for the challenges and
opportunities associated with large-scale utilisation
of Ocean Energy, a workshop on the “Commercial
Deployment of Marine Energy Projects” was organised
by the Sustainable Energy Authority of Ireland withthe support of Innovation Norway.
Presentations are available at:www.seai.ie/Renewables/Ocean_Energy/OE_O_and_M_Workshop/
Oyster1, Aquamarine’s
device operating in
EMEC (UK)
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The Implementing Agreement on Ocean Energy Systems
operates within a framework created by the International
Energy Agency (IEA). The views, findings and publications of
the OES-IA do not necessarily represent the views or policies
of the IEA Secretariat or its individual member countries.
Page 6 Information Exchange
CanadaTracey Kutney, CanmetENERGY, NRCan
The Fundy Ocean Research Centre for Energy (FORCE) is
an ongoing project in Canada, Nova Scotia, for tidal
energy research, supported by both public and private
funding (www.fundyforce.ca). Total funding to date is
approximately $38 million. It was set up as a fully
permitted and grid‐connected multi‐user demonstration
facility.
Key actions at FORCE, in 2010, include the development
of an environmental monitoring program. The Open
Hydro (Irish technology) in partnership with Nova Scotia
Power was the first technology to be tested at FORCE.
Other technologies planned for installation include the
Marine Current Turbine in partnership with Minas Basin
Pulp and Power and the Alstom/Clean Current Power
Systems.
Several developers may receive funding for developing
projects in Canada, including: SyncWave Systems Inc.,
Renewable Energy Research (RER) subsidiary of RSW
Inc., Carnegie Wave Energy Ltd, New Energy Corporation
Inc. and Verdant Power.
The development of a Canadian Marine Renewable
Energy Technology Roadmap has been initiated, and is
expected to be publically available in 2012.
United States of AmericaAlejandro Moreno, USA DOE In 2010 an impressive number of developments for ocean
energy technology took place in USA, including
significant changes to the national ocean policy.
The federal agency responsible for offshore energy
regulation on the Outer Continental Shelf of the United
States, Minerals Management Service (MMS), was
restructured and renamed the Bureau of Ocean Energy
Management, Regulation, and Enforcement (BOEMRE).
In 2010, the Department of Energy made 20 Advanced
Water Power Technology Development awards, including
funding for advanced design and manufacturing
technologies for composite materials, conceptual designand modelling for ocean thermal energy conversion
(OTEC), advanced power converters and power take off
mechanisms.
Through a new funding opportunity, known as a Broad
Agency Announcement (BAA), nearly $5 million were
allocated, selected for research projects to address
environmental information needs for ocean energy.
The Department of Energy (DOE) awarded $250,000 to
the Center for Ocean Energy Technology at Florida
Atlantic University to launch the Southeast NationalMarine Renewable Energy Center.
DOE provided support for 27 industry demonstration
projects, including: the Ocean Renewable Power Company
project (Portland, Maine) for a commercial-scale array of
five grid-connected TidGen™ devices in Maine and the
project of the Public Utility District No.1 of Snohomish
County (Everett, Washington) consisting of two Open-
Centre Turbines, by OpenHydro Group Ltd., in Admiralty
Inlet of Puget Sound.
Verdant Power signed a Memorandum of Understandingwith the China Energy Conservation Environment
Protection Group to develop a tidal project in China.
Oregon State University (OSU) and University of
Washington (UW) in partnership are developing
the Northwest National Marine Renewable Energy
Center (NNMREC) to support wave and tidal energy
development for the United States.
Ocean Power Technologies, Inc. signed an agreement
with eleven federal and state agencies and three non-
governmental stakeholders for its utility-scale wavepower project in Reedsport, Oregon.
Photo: Courtesy of Hydro Green Energy, LLC
Installed in Hastings, Minnesota (USA)
Operating Agent of the O ES-IA Annex I contact details:
Ana Brito e Melo, Tel +351 218482655, E-mail: [email protected]