OFFSHORE WIND FARM GRID INTEGRATION ......OFFSHORE WIND FARM GRID INTEGRATION CHALLENGESINTEGRATION...
Transcript of OFFSHORE WIND FARM GRID INTEGRATION ......OFFSHORE WIND FARM GRID INTEGRATION CHALLENGESINTEGRATION...
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OFFSHORE WIND FARM GRID INTEGRATION CHALLENGESINTEGRATION CHALLENGES
Wind Power R&D seminar - Deep sea offshore wind power, 20-21 January 2011, Royal Garden, Trondheim K Sh if b di St tk ft E ASKamran Sharifabadi , Statkraft Energy AS
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FOREWIND OFFSHORE WINDFOREWIND OFFSHORE WIND PROJECTS
Round 3
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THE DOGGERBANK ZONE
• 135 300 kilometres• 135-300 kilometres east of the Yorkshire coast
• Zone: 8660 km2• Zone: 8660 km2
• Ocean depth:18-63 meter
• Potential of installed capacity:9-13 GW
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ONE ZONE – SEVERAL PROJECTS
Tranche A• Identified by July 2010y y• 2 years of comprehensive stakeholder engagement, surveys and studies in progress• Apply for consent end of 2012
C t d i i d f 2013
D
• Consent decision end of 2013• Commence pre construction work thereafter
Tranche B
B C
Tranche B• Identified by July 2011
Tranche C
ATranche C• Identified by July 2012
Tranche D• Identified by July 2013
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GENERAL CHALLENGES
Accurate modelling of energy capture for large arrays and multiple arrays
Increased reliability for turbines to reduce access requirements in morereduce access requirements in more challenging locations
Collector grid, offshore & onshore grid, g , g ,
Offshore installation technologies
Costs of technology developmentCosts of technology development
IHC
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CHALLENGES WITH OFFSHORE GRID
AC or DC transmission lines and gridg
Grid development & interface on shore
Off fOff shore installations, platforms
Operation & Maintenance, Marine operations
Infeed loss risk due to DC link failure,
Real time balancing need for rotating reservesReal time balancing, need for rotating reserves
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ELECTRICAL SYSTEM DESIGN
Alternative configurations and technologiesMeshed or radial network?How many substations? Subsea reactive compensations?How many collector platforms?y pDistance between turbines? How many turbines per string?
Wake effects vs. available area, CAPEX (cables) and OPEX (O&M, reliability)reliability)
Wind farm grid voltage?AC or DC collector grid? P i t t i t lti t i l id i t f ?Point to point or multi-terminal grid interface?
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OWNERSHIP AND RESPONSIBILITIESUK Transmission N t k
Turbine Arrays
OffshoreCollection
Developer
DC grid & grid design
T i i O (OFTO)Network
National GridDeveloper
Developerthen OFTO
V ≥132kV AC
Transmission Owner (OFTO)
V ≥ +/-320kV DC
Sta
tion
on on
V= 400kV AC V≥33kV AC
fall
able
Rou
te
ore
Con
verte
r
Rou
te
onve
rter S
tati
olle
ctor
Sta
tio
b-S
tatio
n
Cab
le L
andf
Ons
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Ca
Ons
ho
shor
e C
able
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Offs
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Co
Offs
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NG
Sub
Offs
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COLLECTING THE POWERTurbine Arrays
Radial configuration is the traditional solution 33 kV AC
Developer
V≥33kV AC
Adopted from onshore wind farms Approximately 8 turbines on each array string
(max. 40MW) T h i i i V≥33kV AC
llect
or S
tatio
n Two or three variations on cross section
Offs
hore
Co
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OFFSHORE CABLE TECHNOLOGY 275kV 3 core AC cable
630mm² copper conductors
500MVA capacity
5-7 year development timescales
Not used in studies
500kV HVDC XLPE Bipole Pair
2500mm² copper conductors
650kV MI (PPL) Bipole – laid separately
2500mm copper conductors
Not used in studies
2500mm² copper conductors
2000MW capacity
4 year development timescales
2500mm copper conductors
3000MW Capacity
2-3 year development timescales
Not used in studies Not used in studies before 2020
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GRID INTERFACE CHALLENGE
Statkraft presentation11Source: ODIS 2010
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INTERCONNECTION INITIATIVES (UK)
Political declaration of 10 N Sea countriesNorth Seas’ Countries Grid Initiative
IFA (GB – France): 2GW
Signed up to by UK Government
Existing interconnectors
Moyle (NI – Scotland): 450MW
BritNed (GB Netherlands) 1GWUnder construction BritNed (GB – Netherlands): 1GW East-West (GB – Ireland): 500MW
Other potential links Belgium: 1GW from 2016/17 France: 1GW from 2018 Norway: 1GW – 2GW from 2018 Ireland #2: 1GW max from 2018
Map source: ENTSO-E draft TYNP
Ireland #2: 1GW max from 2018
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THE “SUPERGRID” ?
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INTEGRATED SOLUTIONS WITH MULTITERMINALConsumption, oil platform
Grid interface Point 1
2 x 500 MW
Power flow control? Fault handling?
Faults in DC system
2 x 500 MW2 x 500 MW
Connected oni. AC side? or ii. DC side?
Faults in DC system Faults in AC system
Stability?
Grid Interface Point 2
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SOME TECHNOLOGY GAP EXAMPLES
Platform design needs to be defined for each application
Development of high capacity AC Cables, subsea reactive compensation technologies
Development of 1GW or higher VSC HVDC links and multiterminal solutions
Suppliers indicate that these technologies can be developed but require a large market to justifydeveloped but require a large market to justify
the development costs
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TECHNOLOGY GAPS SUMMERYIn general:
Scaling up VSC HVDC technology for GW transmission Scaling up VSC HVDC technology for GW transmission
Reliability for offshore application must be demonstrated
XLPE submarine cable systems must be proven for operation at 300kV DC or higher, Cable joint technologies for deep see
M lti t i l HVDC t h l & t l t t i fl Multi-terminal HVDC technology & control strategies, power flow
Development of DC Circuit Breakers
Automatic network restoration
DC Protection relay technologies for DC grid
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OFFSHORE SUBSTATIONS
R1 – “Onshore” design R3 – Standardisation?R2 - Integrated designs
Global Tech 1 (400MW)Sheringham Shoal(Areva + Wood Group Engineering)
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WAY FORWARD AND SUMMARY
How can we future proof the new technologies & solutions with focus ontechnologies & solutions with focus on costs?
How can we assure and identify the showHow can we assure and identify the show stoppers?
Technology development with vendors R&D programs, national and EU R&D programs.
It i i d t d l t h l iIt is required to develop new technologies and approaches, with focus on
reliability, flexibility and lower costs
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