TRI-FLOATERFLOATING OFFSHORE WIND TURBINEDESIGN FOR EFFICIENT MANUFACTURING, INSTALLATION AND O&MROTTERDAM, 15 JUNE 2016

Indicative cost curves for bottom founded and floating offshore wind turbines

WHY FLOATING?WATER DEPTH

0 50 100 150 200

Co

sts

Water depth [m]

fixed foundations

floating foundations

CAPEX of floating offshore wind turbines

Reference: Carbon Trust, 2015

FLOATING WINDTECHNICAL FEASIBILITY PROVEN, CHALLENGE TO REDUCE COSTS

Statoil Hywind, 2009

Principle Power, 2011 Fukushima Forward, 2013

GOTO FOWT, 2013

0

2

4

6

8

Prototype Pilot farm Commercial

CA

PEX

m€

/MW

Proven semi-submersible technology

Low acceleration levels

Low steel weight

Efficient manufacturing, installation, O&M

GustoMSC Tri-Floater

TRI-FLOATERSEMI-SUBMERSIBLE FLOATING WIND TURBINE FOUNDATION

Hub height above SWL 90 m

Rotor diameter 126 m

Radius to column center 36.0 m

Column diameter 8.0 m

Design draft 13.2 m

Transit draft 7.5 m

Steel structure 1800 t

Outfitting 150 t

Wind turbine 560 t

Water ballast 970 t

Static mooring load 150 t +

Total displacement 3630 t

Reference: Huijs et al, EWEA Offshore 2013

TRI-FLOATERPARTICULARS FOR 5 MW REFERENCE WIND TURBINE

Length scaling factor 1:50

Time scaling factor 7

10-min mean wind velocity 21 m/s

Turbulence intensity 6 %

Significant wave height 7 m

Wave peak period 12 s

Reference: OMAE2014-23217

TRI-FLOATERMODEL TESTS

Demonstrators

Mitsui (Fukushima Mirai)

Mitsubishi (Fukushima Shimpuu)

University of Maine (Volturnus)

Principle Power (WindFloat)

3-COLUMN SEMIPROVEN TECHNOLOGY

Flat steel plating with stiffeners

No bracing

Automated welding

Standardized blocks

Proven structural design similar to GustoMSC designed semi-submersibles

MANUFACTURINGBLOCKS AND FLAT STEEL PLATING

Assembly of blocks on pier

Float-out using own buoyancy

Wind turbine installation with onshore crane

GustoMSC Tri-Floater assembly on a pier

FLOAT-OUTNO DRY-DOCK NEEDED

Installation phase

Cable lay/trenching vessel

Subsea support (multiple)

Seabed preparation

Feeders

Tugs

Foundation installation vessel

Turbine installation vessel

AHTS

Operation & maintenance

Crew supply vessel

O&M vessel (small and large)

(air) dive support

Tugs

INSTALLATIONBOTTOM FOUNDED WIND TURBINES

Installation phase

Cable lay/trenching vessel

Subsea support (multiple)

Seabed preparation

Feeders

Tugs

Foundation installation vessel

Turbine installation vessel

AHTS

Operation & maintenance

Crew supply vessel

O&M vessel (small & large)

(air) dive support

Tugs

INSTALLATIONTRI-FLOATER

Void structure, no active (ballast) systems

No bracing connections

Fatigue sensitive spots all above water level

Two boat landings

Tow back to port possible

GustoMSC Tri-Floater designs 2002 and 2016

MAINTENANCEEASY ACCESS FOR INSPECTION AND MAINTENANCE

Left: Principle Power WindFloat, Portugal, 2011

Vestas 2.0 MW wind turbine

Right: GustoMSC Tri-Floater, artist impression

7 MW wind turbine

FLOATER CONCEPTSSEMI-SUBMERSIBLE

THANK YOU FOR YOURKIND ATTENTIONTri-FloaterTeam@GustoMSC.com

© Copyright GustoMSC B.V. 2016. All rights reserved.