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Text (M) & Image (XL)
2
─ 1. Company profile
─ 2. Developing a new JUV
─ 3. Developments in offshore wind, wind turbines, foundations, and vessels
─ 4. Equipment and process optimisations
─ 5. New-building process
─ 6. Short movie
─ 7. Questions
Content
Text (XXL)
1. Load and draught
2. Crane Capacity
3. Jack – Up speed
4. Sailing Speed
5. Reliability
6. Installation accuracy
Design of JUV
5
Loading and
seafastening
Pile
drivingLifting and
pitching
Position, jack
and pre-
loading
Sail
Jack-
down
Sail to next
position or
port
IMAGE 100%
6
Developments in turbines, foundations and installation equipment
Larger Turbines at deeper water and on Jackets
2011 Aeolus
Investment
Decision
IMAGE 100%
Expected Monopile weights
71
1994
Lely
500 kW
230
2006
Egmond
3000 kW
544
2009
Belwind
3000 kW
Expected Limit
Future MPs
900?
2011 Aeolus
Investment Decision:
990 ton Crane
Larger Turbines at deeper water and on Jackets
IMAGE 100%
Developments in MP weights
71
1994
Lely
500 kW
230
2006
Egmond
3000 kW
544
2009
Belwind
3000 kW
917
2015
Gemini
4000 kW
1302
2016
Veja Mate
6000 kW
Text (XXL)
The early concepts
9
Sea Power
Transport vessel which can lift.
Resolution
Jack-up barge which can sail
Jumping Jack
Jack-up barge without propulsion
Text (L) & Image (M)
Offshore installation vessel Aeolus
15
Specifications
Length o.a 139.4 m Speed 12 knots
Breadth 38.06 m Accommodation 74 persons
Depth 9.12 m Installation crane 990 tons at 30 m
Draft 5.70 m Total power 18,688 kW
Deadweight 6,000 tons Jack-up system 4 x 81 m legs
Deck space 3,300 m2 Positioning DP2
IMAGE 100%
17
Questions?
Wouter DirksManager Engineering & EstimatingVan Oord Offshore Wind Projects