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Far and Large Offshore Wind innovation program (FLOW)
Presentatie IRO – CEDA
Ernst van Zuijlen, 9 maart 2010, Den Haag
The Founding Fathers of FLOW
Source: FLOW
WIND TURBINE
DESIGN ANDMANUFACTURING
OFFSHORE ENGINEERING,CONSTRUCTIONAND MAINTENANCE
ELECTRICAL SYSTEMAND GRID INTEGRATION
WIND FARMDEVELOPMENT
AND OPERATION
WIND ENERGYR&D
VESSELS AND EQUIPMENT FOR OFFSHORE INSTALLATION AND FOUNDATIONS
FLOW accelerates development and reduces costs and risks
<50-60 km off coast;
typically <30 m water depth
NEARSHORE FAR OFFSHOREONSHORE
>50-60 km off coast;
typically >30 m water depth
120 m1)
100 m1)
REDUCE
COST
ACCELERATE
Far-shore development essential for 6.000 MW in 2020
Source: Innovatie Agenda Energie, DNV, ECN
Dutch renewable energy goals 2020
• Target 2020: CO2 reduction of
30% compared to 1990
• Realizing the target includes a
requirement of 20% renewable
energy
• Towards 2020 6,000 MW offshore wind energy
50-60 KM
12 Mileszone
~3,0
00 M
W ?
>10,
000
MW
Many far-shore developments
Distance to shore (KM)
Year
1990 1992 1994 1996 1998 2000 2002 2004 2006 2008 2010 2012 2014 2016 2018
2008: Amalia
2010: BARD
2011: Nordlicher Grund
2013: FLOW
2013: Hochsee Windpark Nordsee
2015: He DreihtApproved
Under construction
Operational
2015: Sandbank 24 phase 1
0
100
120
140
20
40
60
80
2006: OWEZ
Diameter indicates wind farm capacity [MW]
NEARSHORE
FAR OFFSHORE
Source: EWEA reference scenario, Windpower.org, BWEA, Ecorys 2009, Project websites
Rapidly developing new sector
1,100
2007
3,500
2010
12,000
2015
35,000
2020
74,500
2025
Total installed offshore capacity in Europe [MW]
will increase according to EWEA reference scenario
Ideal location of the Netherlands among the
most important offshore wind energy countries
INDICATIVE
Expected commissioning before 2015
ILLUSTRATIVE
Offshore wind energy value chain(under development)
Wind farmdevelopment
and operation
NON-EXHAUSTIVE
Wind turbine
design
Wind energy
R&D
Wind turbine
manufacturing
Offshore design and
engineering
Offshore construction &
installation
Offshore
maintenance
Wind farm development and operation
4 R&D Themes 16 horizontal R&D Lines
3 vertical R&D Lines
Source: FLOW
R&D THEMES R&D LINES
FAR-OFFSHORE
WIND FARM DESIGN
1
FAR-OFFSHORE
TURBINE DEVELOPMENT
4
FAR-OFFSHORE
ELECTRICAL
SYSTEMS AND GRID
INTEGRATION
3
2
SUPPORT STRUCTURES
Integration of support structure within the far-offshore wind farm
Design and certification
Development and validation of offshore wake effects software
Site conditions and loads
Optimization of installation techniques and logistics
Wind power station value chain optimization
General turbine concepts
Design and control tools
Intelligent operations and maintenance for large-scale far-offshore wind farms
Flexible design of offshore substations
Offshore grid optimization
Offshore cable routing and technology choice
System integration and impacts
Specifications and conceptual design logistics hub
Mechanical and electrical concepts
Blade development
Mon
itorin
g (in
clu
din
g e
colo
gy)
Ris
k, c
ost a
nd b
enefit a
ssessm
ent
Hea
lth a
nd s
afe
ty
SOCIETAL
R&D LINES
Technology and innovative concepts demonstrated in the demo wind farm
WIND FARM
DESIGN
1
TURBINE
DEVELOPMENT
4
ELECTRICAL
SYSTEMS AND GRID
INTEGRATION
3
2 SUPPORT
STRUCTURES
R&D PLAN DEMO WIND FARM
R&D THEMES FAR-OFFSHORE
DEMONSTRATION PARK
TURBINE
DEMONSTRATION FACILITY
Source: FLOW
PROVEN
TURBINE TECHNOLOGY
PROTOTYPE
TURBINES
Status update
• Stichting opgericht
• Consortium Agreement en werkpakketdefinitie
• Coordinatie met we@sea, NWEA, HEDEN, SEIN, Taskforce, Transitieplatform…….
• Bewaken consistentie programma
• Conferentie voor belangstellenden
Status update
• Allerlei financieringsbronnen
– EWOZ turbine / fundatie ontwikkeling
– Meetmast
– SDE innovatie premie
– Haven op zee
– Ecologische monitoring
– Binnenkort Kabinetsbesluit over 2de
tranche Innovatieagenda