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Offshore Energy in PortugalOffshore Energy in PortugalWavEC Seminar, May 14, 2010
António Sarmento
What is Offshore Energy?
The ENERGYIN
How to progress
Status of Offshore Energy technology
p g
Offshore Energy in Portugal
Conclusions
Ocean EnergyOcean Energy
Conclusions
Ocean EnergyOcean [email protected]@ist.utl.pt
The Offshore Energy Concept
• Energies sharing:– ocean space– technology– players– legislation and regulations
i ti– innovation
Algae for biocombustibles
ENERGYIN – Pole for Energy Competitiveness & Technology
Funding
gy
Members
ENERGYIN is a private non-profit Association to foster Energy Technology Development Innovation and
ENERGYENERGYININ Mi iMi i
Energy Technology Development, Innovation and Entrepreneurship in Portugal
• 1. To cooperate with Portuguese companies interested in Renewable Energy and Energy Efficiency to increase their
ENERGYENERGYIN IN MissionMission:
Renewable Energy and Energy Efficiency to increase their competitiveness by investing in Technology and Innovation.
• 2. To encourage Innovative Entrepreneurship.
4
ENERGYIN – Pole for Energy Competitiveness & Technology
• Offshore• Rational: to built internationally competitive
industrial capabilities in less mature technologies by
gy
• Offshore Energy
industrial capabilities in less mature technologies by taking advantage of the natural and man-made conditions at the Portuguese coast and continental platform.
• Solar Energy
p• Anchor project: creation of Institute of Offshore
Energy based on the Wave Energy Centre• 2010: Develop a vision for offshore energy and2010: Develop a vision for offshore energy and
identify partners• Energy
Efficiency
• Smart Grids
y
• Sustainable Mobility
Portuguese targets on R.E. for 2020
• 25,5 to 31% of renewable in the total energy mix• 41 to 60% of renewable energy in electricity gy y
production:– Hydroelectricity: 5,000 to 7,000 MWy y– Wind:
• Onshore: 5,000 to 8,000 MW5 000 MW O h Wi d• Offshore: 0 to 500 MW
– Wave: 0,4 to 300 MW 3,800 MW – Wave & Offshore Wind
5,000 MW – Onshore Wind
– PV: 170 to 1,745 MW– Biomass: 474 to 850 MW Offshore Energy
( ff h i d l )(offshore wind, wave, algae)
Floating Offshore Wind: status of the technologyFloating Offshore Wind: status of the technology
Floating:gPrototype demo at sea
Commercial
Waves: Status of the technologyWaves: Status of the technology
Overtopping Oscillating plate OWCg p
Submerged point absorber
Articulated systems Point absorberabsorber
• Significant progress in the last 5 years, in spite of the small investment done (€ 300M / 10 years) but need to deliver in 5 years
Benefits of world leading EU O.E. Industry
I t ll d C it Di t J b T t l J b CO avoided I t tInstalled Capacity in EU / GW
Direct Jobs Total Jobs CO2 avoided Mt / Year
Investment €m
3 6 (i 2020) 26 000 40 000 2 61 8 5443.6 (in 2020) 26.000 40.000 2,61 8,544188 (in 2050) 314.213 471.320 136,3 451,104
Source: Oceans of Energy – European Ocean Energy Roadmap 2010 – 2050, European Ocean Energy Association (EU-OEA), May 2010.European Ocean Energy Association (EU OEA), May 2010.
Offshore test centres for wave energy
EMEC - European Maritime Energy CentreOrkney Scotland | 2003 R dOrkney, Scotland | 2003 Runde
West-coast of Norway | 2009...
Mayo Full-Scale Test SiteI l d | 2008
Galway Bay 1:4 Test SiteI l d | 2004
Nissum Bredning Wave Energy Test SiteNorth western corner of Denmark | 2003
Ireland | 2008…
Wave HubSouth West of Cornwall | 2007 / 2010
Ireland | 2004
SEMREV
Bimep - Biscay Marine Energy PlatformBilbao, Spain | 2008…
SEMREV Le Croisic/Bretagne | 2008…
Scale testing
Portuguese Pilot ZoneSão Pedro de Moel | 2008
Scale testingDemonstrationPré-commercial
São Pedro de Moel | 2008…
How to progress– Increase demonstration at sea
(Only real sea operation will allow to identify the best(Only real sea operation will allow to identify the best solutions - reliability and costs)
– Improve materials, components and power take-offImprove materials, components and power take off equipment(Failures to date are related to components and not the basic concept)
– Improve design, monitoring and control methods and tools for single devices and farmstools for single devices and farms(Demonstration at sea is very expensive and risky)
– Improve fabrication deployment O&M methods andImprove fabrication, deployment, O&M methods and tools, including support vessels(Cost reductions by a factor of 3 are to be attained)
11
Projects in PT (ongoing)
– Offshore wind energygy• Demonstration of a 2 MW offshore wind prototype at
Aguçadoura in 2011 (€ 19 M) – EDP, WavEC/IST, others
– Wave energy• Demonstration of the Wavebob prototype in 2011 –
2012 (€ 8 M) – Generg, Wavebob, WavEC• Demonstration of the Waveroller prototype in 2011 –
2012 (€ 5 M) – AE Energy, Eneólica, WavEC
Projects in PT (Pipeline)
– Offshore WindOffshore Wind• Improved components and monitoring and control
methods and tools• Mapping of the continental Portuguese platform for
offshore wind and wave energy utilization (2010, € 1,5 M) – EDP, Galp, WavEC/IST, others
– Wave Energy• Demonstration of the Martifer prototype in 2012 –
2013 (€ 15 M)• Demonstration of a 1:10 scale of the Kymaner pilot
plant in 2011 (€ 3 M)
Infrastructures in PT: the Pilot ZoneInfrastructures in PT: the Pilot Zone
22 kmPortugal
• Pilot Zone
18,3 km20 kmE
Pilot Zone– 400 km2 offshore area (30m
to 90 m water depth)14,9 km– Up to 250 MW of electrical
connection (18 MW; 80 MW; 250 MW)250 MW)
– Simplified licensing– Managed by REN (PT TSO)Managed by REN (PT TSO)
Infrastructures: Aguçadoura test site
• EDP, EFACEC, PWP• 4 miles offshore Porto
• 45 m water depth• 3 berths• 4 MW electrical
connection to shore• Onshore monitoring
& electrical station• Offshore Wind &
Wave
15
Infrastructures: Pico wave energy plant
40,0
45,0
(kW
) Numerical simulationMeasured at Pico
400 KW – built in 1999 20,0
25,0
30,0
35,0
éctr
ica
méd
ia (
400 KW built in 1999
Demo – EU OE R&D infra-structure2nd test rig for air turbines 0,0
5,0
10,0
15,0
Potê
ncia
el
16
g0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5
Air chamber rms pressure (kPa)
Infrastructures: Institute of Offshore Energy
Board
Ob t N i l W t kT t it M k tObservatory:TechnologyMarket
Numerical modelling centre
Wave tank test centre
Test site:Temporary test of grid-connected
Market support unitSite selection & charactLegislation
EnvironmentSocio-Econ.
connected full-scale prototypes.
& charact., licensing, etc.
1:4 scale test siteno grid-connectionPromotion and
11 M€ in 3 to 5Pico plant
no grid connectionPromotion and management of a R&D network
11 M€ in 3 to 5 years
Support public policies in PT
• Feed-in tariff for wave energy (offshore wind?)– High tariff for demonstration (260 €/MWh)– Reduces with installed power progressively to 75Reduces with installed power progressively to 75
€/MWh. World Power (MW)300 600
0,25
0,3300 600
DEMO (< 4MW per technology)
0,15
0,2
€/kW
h
PRE-COMMERCIAL (< 20 MW per technology)
COMMERCIAL0,075
0,05
0,10,075
01 10 100 1000
National Power (MW)
20 250
ConclusionsConclusions
• Significant progress in the last 5 years in spite of the small• Significant progress in the last 5 years, in spite of the small investment done (€ 300M / 10 years) but need to deliver in 5 years
• Development of Ocean Energy is taking longer, being harder and more expensive than anticipated, with the technology possibly
bili i i 201stabilizing in 2015.
• EU MS targets for Ocean Energy are very ambitious
• Portugal needs to consolidate a persistent and consistent approach to Offshore Energy