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TABLE OF CONTENT
Chapter 1
Offshore wind marketChapter 2
TechnologyChapter 3
C-Power projectChapter 4
Offshore wind at ENGIE
Why offshore wind?
Chapter 5
Why offshore wind?
09/09/2016 4
— Better wind resources
— Reduced social impact: NIMBY
— Large potential
— Investment potential:
• 1 – 3 billion euro per wind farm
• banks consider offshore wind as a mature
technology offering competitive financing
2.9 3.14.7
6.7 7.6
11.713.5
18.1
23.7
30.2
40.4
0.6 0.91.8
2.5
5.2
0.4
0.4
1.0
0.5
2.61.0
1.1
1.1
0.5
0.6
0.7
0.7
0.7 1.21.0
0.4
1.1 1.5 1.6
1.0
2.0
1.0
1.1
1.3
1.3
0.2
1.52.0
0.9
4.1
1.8
4.6
5.6
6.5
10.2
2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020
Other
United Kingdom
Netherlands
Germany
France
Denmark
China
Cumulative (line)
Global offshore-wind installation (GW)
8
Wind turbine suppliers
10
Picture
Type GE Haliade Senvion 6.2M-152 Adwen AD 5-132 ADWEN AD8-180
Power 6 MW 6,2 MW 5 MW 8 MW
IEC class IB IB IB IB
Picture
Type Vestas V164 Vestas V112 Siemens SWT-8.0-154 Siemens SWT-4.0-130
Power 8 MW 3,3 MW 8 MW 4 MW
IEC class IB IB IB IB
Wind turbine
12
“Classic” drivetrain
Transformer
Convertor
Generator
Gearbox
Main bearing
Pitch system
Heli winch deck
Yaw
Wind turbine
14
Typical dimensions
— Nacelle: 19m x 10m x 6,5m
— Hub height: 80m-120m
— Blade: 44 – 88m
Typical masses
— Nacelle: 300 – 400 ton
— Tower: 200 – 500 ton
— Blade: 7 – 35 ton
— Total: 350 – 1000 ton
Wind turbine layout
16
0
1000
2000
3000
4000
5000
6000
7000
0 5 10 15 20 25 30 35
Vestas V90
Vestas V112
Siemens SWT-107
Siemens SWT-120
Repower 5M
Repower 6M
Multibrid M5000
Foundation
17
— Monopile foundation
• Up to 30-40m water depth
• Most often used in offshore wind farms
• Tubular steel structure
• Driven into seabed with hydraulic hammer
• Transition piece (grouted) to connect tower
• Scour protection to prevent erosion of the
seabed
• Heaviest monopile today:
— 1 300 ton
— 7,8m diameter
— 83 m long
Foundation
19
Gravity based foundation
— Concrete construction
— Applied for < 30m water depth
— Less used for new offshore projects
— Very heavy (up to 3000 ton)
— Need a lot of space and time
— Seabed needs to be prepared
carefully
Foundation
20
Jacket foundation
— Lattice structure grouted on anchor piles
— 4 anchor piles driven in seabed
— Relatively light (500 ton)
— Fast fabrication
Transition piece
Electrical system
21
Array cables (33kV)
Offshore
Transformer Station
Export cables (150kV)
Up to 380kV and 1200mm²:
1000MVA
Electrical system
22
Offshore Transformer Station
(OTS):
— 33/150kV transformers
— Switchgears
— Shunt reactors
— Emergency diesel generator
— Emergency shelter
— Power controllers
— Heli-hoist deck
— Weight: 1000 – 2000 ton
— Power: 200 – 800 MVA
Pro’s & cons – Risk profile
24
Source: Geothermal handbook, ESMAP
Refused project
0. Seanergy JV Electrabel – Jan De Nul
Projects in operation
2. C-Power325 MW
Nuhma / DEME
SRIW / Socofe
EDF / RWE / Marguerite Fund
4. Northwind 216 MW
Aspiravi
Parkwind NV
Sumitomo
6. Belwind I
165 MW
Parkwind NV
Rabo Investments
Meewind
Sumitomo
Project in construction
6. Nobelwind 165 MW same as Belwind I
Projects permitted
1. Norther 350 MWEneco
Elicio
3. Rentel 288 MW Otary
5. Seastar 246 MW Otary
7. Mermaid 232-266 MWOtary
Engie
7. Northwester2 217–224 MW
Colruyt Group
InControl, Wagram Invest,
TTR Energy
18 years of experience in ENGIE offshore Wind
development teams going back to 1998 (Seanergy
project)
Cofely-Fabricom experienced in Offshore Maintenance
Services (E&P + offshore wind Netherlands)
ENGIE Fabricom is a market leader in OHVS for offshore
windfarms (~50% market share)
— 12 built
— 19 awarded
— capacity to build from 5-7 substations at the same time
ENGIE offshore wind experience & competences
41
Tractebel ENGIE (incl. IMDC) provided development
support, engineering & construction Follow-up of
Thornton bank project
Offshore wind projects in development (with partners):
— Mermaid: 250 MW in Belgium
— Le Tréport & Noirmoutier: 2 x 500 MW in France
— WindFloat Atlantic: floating wind, 25MW in Portugal
— Pre-development of floating project in French Mediterranean
ENGIE offshore wind experience & competences
42
Does ENGIE want geothermal power plants in its portfolio?
If so, what would be ENGIE’s strategy to accomplish this given the unfavorable risk profile?
Is ENGIE able to compete with current operators/owners?
How to increase ENGIE’s competitiveness?
How Metier CenGen can help achieving this objective?
Questions
05/02/2016 Global Wind Market Outlook 43
Questions?
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