Offshore wind, Development and Consultancy wind, Development and Consultancy Case study Beatrice...
Transcript of Offshore wind, Development and Consultancy wind, Development and Consultancy Case study Beatrice...
Offshore wind, Development and Consultancy
Case study Beatrice Demonstrator & Kincardine Offshore Wind Farm,
Allan MacAskill
Pilot Offshore Renewables, Director
The substructure choice
• The wind industry has a variety of substructure choices:
• Mono piles
• Concrete gravity
• Tripods
• Jackets
• Floating
• Hybrids
• At present the dominant form is the mono pile
• This will change as turbines get bigger and the industry moves into
deeper waters
• Jackets will come into their own
• Floating is in its infancy but it has a number of advantages
• Primarily water depth limitations
• Suitable for any water depth over 40 m
Substructure Choices
Practical Examples
Beatrice: why did we choose jackets ?
• Water depth too deep for monopiles
• Comparison of Jackets and tripod’s
• Results favoured jackets
• Talisman had more jacket experience
• Fabricators / designers revealed more confidence in jackets:
• Potential to improve design and reduce costs
• Scaling up jackets for serial production
• Lighter so less steel and more installation vessel flexibility
• Greater familiarity
Beatrice Fabrication
•Video
Application of Jackets in Offshore wind
• The first application occurred at the Beatrice Demonstrator Project
• Two OWEC towers
• Fabricated by BIFAB and installed in 2006
• Operational for 8 years
• To date more than 100 jackets have been installed
• 2008: Alpha Ventos, Germany - 6 OWEC Towers, 2008, BIFAB
• 2011: Ormonde, UK - 31 OWEC Towers, BIFAB
• 2012: Thornton Bank, Belgium: 49 OWEC Towers, Smulders
• 2014: Nord Sea Ost Germany: 48 jackets, Aker Solutions
• Design
• Most turbine jackets to date are of the OWEC Tower design
• BIFAB and Atkins have announce a new design
• Some developers are developing in house designs, DONG
• Floating offshore wind technology is proven
• HyWind – Norway
• WindFloat – Portugal
• Next stage is
• Pre-commercial developments
• Pilot has unparalleled experience
• Unique opportunity in Scotland
• Government announced higher incentive for floating pilot programmes
• Pre commercial developments get ROC banding (3.5) for floating
Floating Pilot Opportunity at Kincardine
• Develop a pilot floating offshore wind farm in North-East Scotland with a capacity of 50 MW • Up to 8 machines of 6 to 8 MW
• Consent under “survey, deploy and monitor” policy from Marine
Scotland
• Access Scottish Government special support for floating: • 3.5 ROCs for pilot programmes • Operational by 30th September 2018
•Commercial in
confidence
Kincardine Project Objectives
Kincardine: current status
• Path to lease from TCE
• All environmental data gathering requirements complete
• Radar and navigation survey complete
• 50 MW grid connection with SSE at Redmoss
• Scoping report completed
• Scoping opinion from received
• Habitats Resource Assessment completed
• Statutory consultation meeting completed
• Discussions with the major stakeholders in initiated.
Floating offshore wind technology
Tension Leg Semi-submersible Spar
•Commercial in
confidence
Kincardine concept Selection: Semi Submersible
• Maturity: Spar and semi more mature
• Duplication: Statoil spar pilot at Buchan deep
• Familiarity: the Kincardine team more familiar with semi-subs
• Scottish fabrication: can fabrication on east coast of Scotland
• Tow and installation: easy tow from Scottish yards
• Operability: East coast ports suited for repair and maintenance
Kincardine Project Location
Distances
15 km offshore
20 km Dunotar
30 km Aberdeen Bay
Impact
Fishing low
Navigation low
Airport no impact
Visual low
Kincardine Grid connection at Redmoss
Grid Connection
• 50 MW connection at Redmoss,
• Available from mid 2017
• Developer Pilot Offshore Renewables Ltd (Pilot) which was founded by: • Allan MacAskill
• Nicol Stephen
• Project undertaken in partnership with Atkins plc • FTSE 250 company
• World leading design, engineering and project management company
• Next steps Establish alliance to deliver project • Turbine
• Substructure
• Balance of plant
• Engineer
•Commercial in
confidence
Project Partners
Windfloat Technology
Floating wind - Potential markets
• North sea – Norway and UK
• Japan and Korea
• US, Atlantic and Pacific coast – and Great Lakes
• Iberian Peninsula and Mediterranean Sea
MacAskill Associates: Offshore Wind, Development and Consultancy
Tel: +44 8448 150730 Mob: +44 7712 864013
著作権:エネルギー本部
MARKET REPORT
CHALLENGES FOR UK/SCOTTISH
SUPPLY CHAIN FOR OFFSHORE
WIND TURBINE FOUNDATION
CONSTRUCTION
(INCLUDING STRUCTURAL PIPES)
12TH FEBRUARY, 2015
Copyright MITSUI & CO., LTD. All right reserved.
POTENTIAL SHARE OF FOUNDATION STRUCTURES IN EUROPE UNTIL 2020
1%
TRIPODS
3%
JACKETS TRIPILES HYBRID
STRUCTURES
23%
GRAVITY
BASED
73%
MONOPILES
FORECAST: 40-50% 5-10% 40-50%
Copyright MITSUI & CO., LTD. All right reserved.
UK OFFSHORE WIND – OUTLOOK FOR PROJECTS & JACKET FOUNDATIONS
Projects that have passed ‘FiD enabling’ process and
have received subsidy allocation from UK Government:
Project name Main
developer
Planned output
(max) plus med-high.
case jacket no.
Burbo Bank Ext DONG 234MW
Walney Ext DONG 672MW (20 jacket)
Hornsea (Phase 1) DONG 1000MW (20-30 jacket
possibly…)
Dudgeon Statoil 350MW
Beatrice SSE/Repsol 664MW (95 jacket)
Projects that may progress under previous ‘R.O.C’ subsidy
Race Bank DONG 580MW
Rampion E.On 450MW
Projects competing for next round CfD funding
(award announcement due end Feb 2015)
Moray Firth (Phase 1) EDPr / Repsol 500MW?(62 jacket)
Inch Cape (Phase 1) EDPr / Repsol 500MW ?(62 jacket)
East Anglia (Phase 1A) SPR (Iberdrola) 500MW? (83 jacket)
•Still approx. 50% jacket share of foundation for UK
projects (higher percentage 2017/18 onwards)
•However, realistic possibility may be approx. 300
jackets 2015-2020 (average 75 per year 2017
onwards)
TOWARDS 2020
Projects that may progress with ROC’s subsidy or CFD’s
Neart Na Gaoithe Mainstream 400MW? (66 jacket)
Galloper RWE 340MW
Copyright MITSUI & CO., LTD. All right reserved.
TYPICAL JACKET LAYOUT
EL +7000
EL -4000
EL -20000
EL -36000
TOP OF PILE
WP EL -34000
000 LAT
EL -40000
MUDLINE
TRANSITION PIECE BASE
1
8.83
WP EL +15000
EL +20000
TOWER / JACKET INTERFACE
AA
(FACE BATTER)
WP EL +15000
EL +7000
EL -4000
EL -20000
EL -36000
TOP OF PILE
WP EL -34000
000 LAT
EL -40000
MUDLINE
EL +20000TOWER / JACKET INTERFACE
TRANSITION PIECE
BASE
SP
LA
SH
ZO
NE
SE
E N
OT
ES
3
12000
STEEL TYPE
II - AZ
EL +19000TP TOP FLANGE
ELEVATION
GENERAL
ARRANGEMENT
PLAN VIEW ON A - A
(FROM EL +15000)
C
LARGE TURBINE JACKET
JACKET STRUCTURE - PRIMARY STEEL
Copyright MITSUI & CO., LTD. All right reserved.
TYPICAL WEIGHT DISTRIBUTION FOR 600-700MT JACKET
DESCRIPTION WEIGHT (TONNES)
LEGS AND BRACES 600
TRANSITION PIECE 140
PILE STAB-IN GUIDES 40
LAYDOWN PLATFORM 15
BOAT LANDINGS 18
ANODES 20
J-TUBES 20
GROUTED LINES 2
PILES (4 NO.) 350
Copyright MITSUI & CO., LTD. All right reserved.
FUTURE FOUNDATION CONTRACTORS OGN DCNS STX SILVA MATOS DRAGADOS AIBEL BILFINGER GLOBAL ENERGY HARLAND & WOLFF
SERIAL PRODUCTION JACKETS BI-FAB IEMANTS (SMULDERS) BLADT NAVANTIA
AIBEL
BIFAB
BILFINGER
BLADT
EEW
SIF
CORINTH
TATA
OFFSHORE FABRICATORS IN EUROPE: FOUNDATIONS
MONOPILES EEW / BLADT SIF / IE MANTS (SMULDERS) OFFSHORE STRUCTURES (UK) (MONOPILE TRANSITION PIECES) HARLAND & WOLFF
STRUCTURAL STEEL EEW EBK CORINTH EP / SALZGITTER (UOE/HFI) TATA (UOE) WINDAR
EBK
SMULDERS
GLOBAL
ENERGY
HARLAND
& WOLFF
OFFSHORE
STRUCTURES (BRITAIN)
DRAGADOS
OGN
WINDAR
STX
SILVAMATOS
NAVANTI
A
DCNS
Copyright MITSUI & CO., LTD. All right reserved.
MANUFACTURING ANALYSIS FOR STRUCTURAL TUBULARS
Company Location Production
Line
WT(mm) OD(Inch) Max Length Capa (MT/y) Min Max Min Max (m)
Europipe Mulheim, Germany UOE 7.0 40.0 20 60 18 800,000
Tata Steel UK UOE 8.0 51.0 16 118 14 300,000
Hartlepool, UK Bending Roll 6 32.0 18 84 30,000
ILVA Italy UOE 6.35 39.6 18 56 1,200,000
EEW
Erndtebruck, Germany Bending Roll 76.0 15 43 90,000
Sacheon Bending Roll 9.5 60.3 18 150 150,000
Malaysia Bending Roll
EBK Hilchenbach, Germany Bending Roll 20 220.0 20 157 75,000
Dongkuk Pohang, Sth Korea Bending Roll 6.0 80.0 35.60 127 40 800,000
Samkang
M&T
Goseung, Sth Korea Bending Roll 8.0 145.0 60 240 40 36,000
Milyang, Sth Korea JCO 9.5 100.0 14 60 18.0 60,000
Sif Roermond, Netherland Bending Roll 20.0 160.0 38 254 115 200,000
UOE pipes are mainly supplied for linepipes. MTO for structural
pipes for jackets are not always suitable for UOE because of the
variety of the dimensions (smaller lot for each dimension).
Copyright MITSUI & CO., LTD. All right reserved.
CURRENT COST BREAKDOWN OF 600-700MT JACKET
COST INCLUDES SECONDARY STEEL, PILES, TRANSITIONS PIECE
TARGET IS FURTHER 25% COST REDUCTION FROM £3 MILLION
£3M
10%
16.34%
3.8%
4%
28.6%
17.2%
6.6%
13.5%
Copyright MITSUI & CO., LTD. All right reserved.
THANK YOU FOR YOUR TIME