overview of interconnection requirements for wind power ...introduction – interconnection of...
TRANSCRIPT
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Overview of InterconnectionRequirements for Wind Power Plants
Denver, 28.07.2015Frank Martin, Siemens Wind Power A/S
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Agenda
• Introduction - Why relevant for WPP’s
• Interconnection requirements – an overview
• Problems / challenges
• An idea of the European Wind Industry – harmonization of gridcode requirements
• Conclusion and outlook
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Introduction – Interconnectionof WPP’s• There is a number of reference points
for each WPP (e.g. to verify reactivepower capability, FRT requirements,power quality, ....)
• Which reference points apply?
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Introduction – Interconnection requirements
• Set of rules – connectionand operation for generatingplants
• In general applicable forall kind of generating plantsas well as WPP’s
• Requirements –apply normallyat a defined reference pointof the generating plant
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Interconnection requirements – challenges
Problems for the wind industry (e.g. manufacturers, developers, operators):
• Requirements changing quite frequently (e.g. updates and drafting of newrules)
• Requirements are diverse and contain sometimes technical gray zones
• It must be fully clear what is required and what has to be fulfilled by theWPP at which reference point
• A common specification language is missing
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Introduction – Interconnection requirementsrelevant for WPP’s respectively WT’s - why??
Mech. Gen. + Conv. El- system El-infratructure SCADA Develop. +Compliance
Produc. Lifetime
FRT X X X X - X - X
Voltage range - X X X X X (X) -
Reactive power support - X X X X X (X) -Reactive power at no
Wind - X X - X X - (X)
Active power control X - - - X X Delta -
Frequency control (X) - - - X X FSM XFast frequency
response X X X - X X - X
> 25 m/s X (X) - - X X X X
Blackstart - (X) X X X X - -
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Interconnection requirements – overview
Connection requirments can be split into different groups:
• General requirements (e.g. definitions, MW size limits, reference points)• Req. on steady state operation (e.g. operation ranges, power quality)• Req. on dynamic performance -- different control schemes
-- during grid faults• Communication (e.g. SCADA), protection and verification (e.g. protection
settings at WT, WPP level)• Req. on simulation models / validation• Compliance of WPP with requirements(type tests / certification, WPP
compialce tests / monitoring)• ”Additional requirement”
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General requirements
Definitions:
• Generating unit (e.g. WT)• Generating plant (e.g WPP)• Reference point, Current, Frequency, Voltage, .... (e.g. pos. sequ., RMS, inst.
values)
Specification of reference points (e.g. point of connection (POC))
• Must be clear at whichreference pointsrequirements apply
High diversityin definitions!
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• Missing and unclear definitions in grid codes
rise time, response time, detection time, settling time, voltage, ....
• What are the reference values (e.g. active power) for the differentrequirements?
maximum capacity, registered power, actual active power, .....
• Reference point for different requirements (e.g. reactive powerrequirements, FRT requirements, POI, PCC, IP, CP, GEP, ....)
General requirements – challenges
Source: ENTSO-E
NGCP
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Steady state operation (1)
Operation range
• Voltage (kV) – continuous operating range (e.g. 0,9 Un – Un – 1,1 Un)
• Frequency (Hz) – continuous operating range (e.g. 49,0 Hz – 51,0 Hz)
• Rate of change of frequency (ROCOF) withstand capability (e.g. 2 Hz/s)
Source: ENTSO-E
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EON: 0.925lead / 0.95 lagOntario: 0.95
lead / 0.94 lag
UK: 0.95 / 0.95
NZ: 0.9 lead /0.95 lag
IRL: 0.95 / 0.95
FR: 0.94 lead /0.92 lag SP: 0.97 / 0.97
(bonus if <0.95 / <0.95)
AU: 0.93 / 0.93
Reactive power capability – various requirements world wide – trend towards 0.9lead / lag
Steady state operation (2)
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Steady State operation (3)Reactive power capability P(Q) diagram – at and below rated active power
Where?
Voltagerange?
Source: TenneT
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Dynamic – controls (1)
Requirements for active power control:
• Start-up ramp up rate [MW/min]
• Active power controlabilityvia SO set points
• Ramp down and ramp up ratesduring normal operation [MW/min]
• MW control schemes
Definition ofpower baseimportant
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Dynamic – controls (2)
Requirements for frequency control:
• P reduction in case ofover frequency
• Frequency control
Requirements for reactivepower control:
• Voltage control• MVAR control• Power factor control Source: Energinet.dk.
Eirgrid, National Grid
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Dynamic – controls – example frequency control
Source: Siemens
Demand on compliance tests and validation:
• For controlsat WPP leveltests are required
• Requirements forverification of WPPcontrols
• Simulation modelsand studies usuallydone
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Fault Ride Through (FRT) profiles in case of under voltage events
• Which voltageis shows
• What are thepre-fault andpost-faultconditions(U, Q, SCR)
Dynamic – during grid faults (1)
0
0,2
0,4
0,6
0,8
1
1,2
-0,50 0,00 0,50 1,00 1,50 2,00 2,50 3,00 3,50
Volta
ge/p
.u.
Time / s
Nationa Grid,UK
ESB, IRL
E.ON, D
Energinet.dk
SvenskaKraftnät, S
RED Eléctrica,E
FERC, USA
Statnet, N
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Fault Ride Through (FRT) profiles in case of over voltage events:
• Requirementsspecified where?
• Simulation studiesare necessary
Dynamic – during grid faults (3)
Source: Eskom, HydroQuebec
What is thehighestvoltage
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Different requirements for fast acting voltage control during grid faults:
• Injection of prioritized activecurrent or reactive current
• Injection of reactivecurrent during grid faults(pos. sequ. or pos./neg. sequ.)
• Demands on rise- and settling time(e.g. tr = 30 ms; ts = 60 ms)
Dynamic – during grid faults (4)
Source: Energinet.dk;VDE FNN, ENTSO-E,State Grid
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Level of details of the requirement – vs. room for different technologies:
• Injection of what kind of current (active vs. reactive current, pos. sequ. /neg. sequ., absolute vs. additional reactive current)
• How to verify rise and settling time (based on pos. sequ. current)
• Post fault reactivecurrent behaviour
• Verification of these requirements – FRT tests at WT level
Dynamic – during grid faults - challenges
Source: Energinet.dk
Source: Teias
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There are much more requirements for WPP’s
• New requirements(services)
• Existing requirementswhich become moredemanding(models, compliance)
• Regulatory aspects(market schemes...)
More requirements and ancillary services
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Modern WT’s support the different requirements and can provide requiredcontrol functionalities:
• Low voltage fault ride trough• Active power control• Ramp control, limitations etc.• Reactive power control• Voltage control• Frequency control, including fast frequency response
But there are much more requirements to WPP’s (power quality aspects,damping requirements, provision of validated simulation models, ....)
Interconnection requirements - conclusion
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European Wind Energy Association (EWEA) – TF Grid Codes:
• EWEA TF on GC set up – 2006, group of wind turbine manufacturers,component manufacturers, developers, consultants and associations
• TF works onpresent grid codetopics(harmonisation,NC RfG)
European Wind Industry – harmonization ofrequirements (1)
Source: EWEASource: EWEA
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2 Steps – first structure (e.g. figures, units) and second technical items (e.g.values, ranges)
Source: EWEA
European Wind Industry – harmonization ofrequirements (2)
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Summary and conclusion
• High diversity in requirements worldwide which brings challenges for WTmanufacturers
• Interconnection requirements contain technical gray zones – leads tomisunderstandings – projects getting more expensive!
• Interconnection requirements for WPP – is a combination of wind turbines,wind farm controls and other devises/controls!
Compliance with Interconnection Requirements is essential toconnect WPP’s! But there are usually many obstacles on the path!
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Thank you for your kind attention!
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Further information:Frank Martin
Siemens Wind Power A/SE W EN OEN DES ESG 2Elektrovej 325 / c/o DTUDK-2800 Kgs. LyngbyDenmarkTel.: +45 (30) 37-5363Mobile: +45 (30) 37-5363mailto:[email protected]://www.siemens.com/wind
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