International Studies about the Grid Integration of Wind ... · PDF file1 PowerFactory User's...
Transcript of International Studies about the Grid Integration of Wind ... · PDF file1 PowerFactory User's...
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
International Studies about the Grid Integration of Wind Generation
Dr.-Ing. Markus Pöller/DIgSILENT GmbH
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Internation Studies About Grid Integration of Wind Generation
• Grid Integration of Wind Generationin South Africa:– The GIZ/DEA&DP Grid Study for the Western Cape/South Africa
– GIZ/DOE/ESkOM: Capacity Credit of Wind Generation in South Africa
• “DENA-II-Study” Integration of Renewable Energies into the German electricity transmission system during the time frame 2015-2020 with an outlook until 2025
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Results of the GTZ/DEA&DP Grid Study for the Western Cape/South
Africa
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Situation in South Africa
• Since 2009: Feed-in tariff scheme is in place (1,25ZAR/kWh around 0,14USD/kWh)
• Only a few test turbines in operation (end of 2009)
• Wind farm developments in the Cape (Western and Eastern Cape) started.
• High uncertainty about the overall amount of wind generation that will get a permission to connect to the grid.
• The grid study (2009) represents an initial feasibility study looking at the high voltage transmission system.
• The capacity credit study (2010) looks at the contribution of wind generation to the equivalent firm capacity and system operational aspects.
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
The South African Transmission System
Western Cape
Stage 3
Stage 2
Stage 1
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
The GTZ/DEA&DP Grid Study - Approaches
• Consideration of all wind farms in the Western Cape, for which application existed by end of March 2009 (2798MW)
• High level feasibility studies considering the existing ESKOM transmission grid (excluding subtransmission, <=132kV)
• Constraints:
– No major network upgrades (such as new lines)
– Minor network upgrades, such as additional var-compensation is possible.
• System 2009 (not considering network extensions that are planned for the next 10 years.)
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
The GTZ/DEA&DP Grid Study - Approaches
• Required grid reinforcement at subtransmission levels (132kV) out of the scope of this study
• Lumping all wind farms in a specific region together and modelling them as an equivalent infeed into the nearest 400kV substation
Juno 220 MWAurora 400 MW
Darling 300 MW
Aurora
Ankerlig Power Station
MuldersvleiKoeberg Power Station
Juno
L1-W
FD
L1-W
FA
L1
-WF
J
Muldersvlei 132 CX3
G~
Koeberg Gen1
G~
Koeberg Gen2
Juno 400 RX2
Juno 400 RX1
Aurora 400 RX1
Aggeneis 220 RX1Aggeneis 220 RX2
Aurora 132 CX2
Aurora 132 CX1
G~
Ankerlig Gen 43
G~
Ankerlig Gen 42
G~
Ankerlig Gen 41
G~
Ankerlig Gen 32
G~
Ankerlig Gen 31
G~Ankerlig Gen 11
Muldersvlei SVC SCX
Muldersvlei SVC FCX
SVS
Muldersvlei SVC
Gromis 66 Load TX
Aurora 132 Load TX
Aggeneis 66 Load TX
Koe
berg
-Stik
land
400
_1 S
1
Koeberg-Muldersvlei 400_2 S3(1)
Koeberg-Muldersvlei 400_2 S3
Koeberg-Muldersvlei 400_2 S2(
Koeberg-Muldersvlei 400_2 S1
Helios-Juno 400_1 S2
Helios-Juno 400_1 S1
Bac
chus
-Mul
ders
vlei
400
_1 S
1
Aurora-Juno 400_1
G~
Ankerlig Gen 12
G~Ankerlig Gen 21
G~
Ankerlig Gen 22
Ank
erlig
-Koe
berg
400
_2
Ank
erlig
-Koe
berg
400
_1
Ankerlig-Aurora 400_2
Ankerlig-Aurora 400_1
Acacia-Muldersvlei 400_1 S2
Aca
cia-
Koe
berg
400
_1 S
1
Muldersvlei 132 CX1
Muldersvlei 132 CX2
Nama 66 Load TX
Muldesrvlei 132 Load TX
Muldersvlei 66 Load TX
.. ..
Koeberg 132 Load TX
Juno 66 Load TX
AuroraJuno
Darling
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
The GTZ/DEA&DP Grid Study - Approaches
• Definition of credible worst-case scenarios:
• Analysed cases:– High load, 1 Koeberg (nuclear power plant) units in
– High load, 2 Koeberg units in
– Low load, 1 Koeberg unit in
– Low load, 2 Koeberg units in
• Generation Balancing – High Wind Scenarios:– Reduction of Gas Turbine Generators (running in SCO mode where
possible)
– Reduction of pump storage generation at Palmiet
– Reduction of coal power plants outside the Cape
• Load flow and contingency analysis studies looking at thermal and voltage aspects only.
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
2800MW in the Western Cape – Summary of Results
• Up to 1000MW of export from the Cape to the North under Low load – High Wind conditions (without wind, the Cape system has rather an import problem).
• No violation of thermal limits under n-1 conditions in all scenarios.
• Voltages can be maintained within appropriate limits, without any additional reactive power compensation in the Western Cape.
• The general feasibility of the integration of up to 2800MW of wind generation in the Western Cape, with regard to the impact on the transmission grid, could be demonstrated.
• However:– Operation of the system with considerable export from the Cape to the North must
be studied in further detail.– More detailed studies are required for confirming these results.
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Integration of Wind Energy into the Western Cape System - Summary
Western Cape transmission system – excellent for wind integration:
• Cape system currently has an import problem (no export problem). Power import will be reduced during times of high wind generation.
• Large number of fast acting peak load units available that can be used for balancing wind variations.
• Pump storage can be used for supporting the balancing of wind variations.
• Some GTGs allow for SCO-operation – no need for additional dynamic reactive power compensation (SVC).
At subtransmission levels (<=132kV), transmission capacity will be limited in some cases.
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
What else needs to be done
• Additional, more detailed studies at transmission levels, including additional generation-load scenarios and alternative wind generation scenarios.
• Stability studies under various operating scenarios.
• Wind farm connection studies for every wind farm application.
• Studies related to transmission system operation under situations, in which the Cape exports power to the rest of the system
• Studies related to the expected total power variations of wind generation (variations, ramp-up and ramp-down speeds) for identifying additional reserve requirements have to be carried out.
Capacity Credit of Wind Generation in South Africa
Markus Pöller/DIgSILENT GmbH
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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Capacity Credit Studies for South Africa
• Studies commissioned by:
Studies commissioned by:
• Studies executed by:
• With contributions from:
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
• South African system
– 2015: installed capacity: 52537MW, peak demand: 40582 MW
– 2020: installed capacity: 59753MW, peak demand: 48315MW
• Part1: Assessment of capacity credit of wind generation in South Africa for the following scenarios
– Sc1: 2015: 2000MW of wind generation
– Sc2: 2020- low wind: 4800 MW of wind generation
– Sc3: 2020- high wind: 10000MW of wind generation
• Part2: Impact on residual load variations
Scope of Work
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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Methodology - Summary
• Capacity Credit calculated based on LOLP at daily peak loads.
• Evaluation of Capacity Credit is based on the increase of available reserve at given confidence level.
• Dispatchable units modelled by 2-state Marcov models and deterministic maintenance plan
• Load modelled by daily peak loads
• Wind generators modelled by wind speed time series and generic power curve.
• Approach considers:– Correlation of wind speeds with seasonal load variations.
– Correlation of wind speeds with daily load variations.
– Correlation between wind speeds at different sites.
– Correlation of planned outages with load (maintenance schedule).
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
• Installed Conventional Capacity: 52 537MW
• Yearly Peak Demand: 40 582MW
• Equivalent Firm Capacity: 535 MW
• Capacity Credit: 26,8%
• Corrected CC: 30,0 %
• Average capacity factor of wind generation: 27,2%
• Average capacity factor during full load hours: 30,0%
• Capacity reduction factor CR: 0,89
Study Results – SC1 - 2015
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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• Installed Conventional Capacity: 59 743MW
• Yearly Peak Demand: 48 315MW
• Equivalent Firm Capacity: 1218 MW
• Capacity Credit: 25,4%
• Corrected CC: 28,2 %
• Average capacity factor of wind generation: 30,6%
• Average capacity factor during full load hours: 34,4%
• Capacity reduction factor CR: 0,74
Study Results – SC2 – 2020-Low
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
• Installed Conventional Capacity: 59 743MW
• Yearly Peak Demand: 48 315MW
• Equivalent Firm Capacity: 2256 MW
• Capacity Credit: 22,6%
• Corrected CC: 25,1 %
• Average capacity factor of wind generation: 32,0%
• Average capacity factor during full load hours: 35,8%
• Capacity reduction factor CR: 0,63
Study Results – SC2 – 2020-High
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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Sensitivity Studies – Up to 25 000MW of Wind Generation
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Capacity Credit Studies - Summary
• Capacity credit of wind generation in South Africa will be between 23% and 27% for installed wind capacities up to 10 000MW until 2020.
• With increasing penetration levels, capacity credit of wind generation is generally reducing.
• In the presented studies, the 2020 wind farm sites have better wind conditions, therefore capacity credit remains high, also in 2020 scenarios.
• Considering the limited availability of coal fired power plants (90%), the effect on generation adequacy is equivalent to coal fired power stations with an installed capacity between 25% and 30% of the installed wind capacity.
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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Part 2: Impact of Wind Generation on Operational Aspects
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Purpose and Scope of Studies
• Visualisation of typical variations of wind generation
• Identification of worst-case situations with regard to
– Ramp-up and ramp-down situations
– Peak load situations
– Situations with minimum load
• Input data:
– Time series of wind speeds (hourly resolution, same as capacity credit)
– Generic power curve
– Forecast of time series of the load for 2015 and 2020 (hourly resolution)
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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Typical Situation in Winter 2015
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
5000,04700,04400,04100,03800,03500,0
2000,0
1600,0
1200,0
800,00
400,00
0,0000
x-Axis: TimeSeries: Hour of year in hTimeSeries: Total Wind Generation in MW
5000,04700,04400,04100,03800,03500,0
5.00E+4
3.75E+4
2.50E+4
1.25E+4
0.00E+0
-1.25E+4
x-Axis: TimeSeries: Hour of year in hTimeSeries: Total Load in MWTimeSeries: Total Residual Load in MWTimeSeries: Total Wind Generation in MW
DIg
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T
Typical Situation in Winter 2020-High (10000MW int. Wind)
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
5000,04700,04400,04100,03800,03500,0
1.00E+4
7.50E+3
5.00E+3
2.50E+3
0.00E+0
-2.50E+3
x-Axis: TimeSeries: Hour of year in hTimeSeries: Total Wind Generation in MW
Y = 0,000 MW
Y =10000,000 MW
5000,04700,04400,04100,03800,03500,0
8.00E+4
6.00E+4
4.00E+4
2.00E+4
0.00E+0
-2.00E+4
x-Axis: TimeSeries: Hour of year in hTimeSeries: Total Load in MWTimeSeries: Total Residual Load in MWTimeSeries: Total Wind Generation in MW
DIg
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T
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Typical Situation in Summer 2015
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
8700,08360,08020,07680,07340,07000,0
2000,0
1600,0
1200,0
800,00
400,00
0,0000
x-Axis: TimeSeries: Hour of year in hTimeSeries: Total Wind Generation in MW
8700,08360,08020,07680,07340,07000,0
5.00E+4
3.75E+4
2.50E+4
1.25E+4
0.00E+0
-1.25E+4
x-Axis: TimeSeries: Hour of year in h
TimeSeries: Total Load in MWTimeSeries: Total Residual Load in MWTimeSeries: Total Wind Generation in MW
DIg
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Typical Situation in Summer 2020-High (10000MW int. Wind)
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
8700,08360,08020,07680,07340,07000,0
10000,
8000,0
6000,0
4000,0
2000,0
0,0000
x-Axis: TimeSeries: Hour of year in hTimeSeries: Total Wind Generation in MW
8700,08360,08020,07680,07340,07000,0
8.00E+4
6.00E+4
4.00E+4
2.00E+4
0.00E+0
-2.00E+4
x-Axis: TimeSeries: Hour of year in h
TimeSeries: Total Load in MWTimeSeries: Total Residual Load in MW
TimeSeries: Total Wind Generation in MW
DIg
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EN
T
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Individual vs. Global Wind Generation (2020-High)
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
2900,002800,002700,002600,002500,002400,00 [-]
1,20
0,90
0,60
0,30
0,00
-0,30
TimeSeries: Total Wind Generation in p.u. (base: 10000,00 MW)
TimeSeries_Wind: Total Wind Generation in p.u. (base: 250,00 MW)TimeSeries_Wind_South: Total Wind Generation in p.u. (base: 200,00 MW)
DIg
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Scenario 3 – 2020/High Wind – Ramp Rates
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
25,0020,0015,0010,005,000,00
9000,00
6000,00
3000,00
0,00
-3000,00
-6000,00
x-Axis: TimeSeries: Proability (Duration Curves) in %TimeSeries: Hourly Load Variation (up) in MW/hTimeSeries: Hourly Load Variation (down) in MW/h
TimeSeries: Hourly Wind Variation (up) in MW/hTimeSeries: Hourly Wind Variation (down) in MW/h
TimeSeries: Hourly Residual Load Variation (up) in MW/hTimeSeries: Hourly Residual Load Variation (down) in MW/h
DIg
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Studies – Summary and Conclusions
• Capacity credit of wind generation in South Africa can be expected to be in a range of around 25% or higher depending on results of studies that are currently under way.
• Hourly ramp-up and ramp-down rates of the residual load are comparable to the corresponding ramp-rates of the system load (without wind generation).
• There are no considerably increased dynamic performance requirements for the existing thermal power plants in South Africa resulting from wind generation with up to 10000MW of installed capacity.
• Main impact on system operation will result from limited predictability not from actual load or wind variations. Corresponding studies are recommended.
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
“DENA-Grid-Study” (Dena 1 – Study)
Integration of Onshore and Offshore Wind Energy into the German
Power System – Planning Study 2003 - 2020
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
German Power Transmission System
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Dena II-Study (Released 11/2010)
• Studied time frame: 2015-2020
• Study execution time: 2007-2011
• Assumptions mainly based on 2007/2008, some of them not valid any more (e.g. solar power, time frame for nuclear power face-out)
• Main assumptions:– Load decreases by 8% until 2020
– Installed onshore wind capacity 2020: 37 000MW
– Installed offshore wind capacity 2020: 14 000MW
– Installed PV capacity 2020: 17 900MW
– Total contribution of renewable energies to electricity demand 2020: 39%
• All references: Final report Dena II study.
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Dena 2 - Scope of Work
• Assessment of required grid expansion
• Use of high temperature conductors
• Use of temperature monitoring
• Demand-side management
• Benefits of the use of storage
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Methodology
• Definition of three base scenarios with regard to storage
• Definition of three scenarios considering different conductor technologies.
• Time series of wind generation with regional resolution and 15min time resolution.
• Market model for calculating unit commitment and economic dispatch.
• Simplified load flow analysis based on regional model and PTDFs
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Methodology – regional model for network analysis
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Required Grid Expansion (and cost)
• Grey: Required length of new overhead lines
• Blue: Required length of new underground cables
• Yellow: Annualized costs
• FLM: With temperature monitoring
• TAL: High temperature conductors
• Hybrid: Overhead lines/underground cables
• HGÜ-VSC: HVDC-VSC
• GIL: Gas insulated lines
Billion Euro/yearLengthin km
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Other Results and Observations
• Storage for reducing required grid expansions:– No significant benefit if storage is operated according to existing market
rules.
• Use of DSM:– Significant reduction of required load following reserve (by up to 60% max.
reserve power)
– Reduction of required peak capacity (e.g. gas turbines): around 800MW
• Increase of load following reserve:– Because of improved wind prediction, the required load following reserve
will not considerably increase until 2020.
Outlook: Determination of the Maximum Possible Installed Wind
Generation Capacity in the System of Panama (Start: 2011)
DIgSILENT GmbH
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
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PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Studies for Panama – Scope of Work
• DIgSILENT is contracted by the ministry of energy of Panama and ETESA (TSO).
• Studied time frame: until 2021
• Phase 1: Grid integration studies– Steady state (load flow/short circuit)
– Dynamic studies (Transient, oscillatory and frequency stability studies)
• Phase 2: System performance:– Capacity credit
– Impact on required spinning reserve
• Status: studies have just started
PowerFactory User's Group Meeting 2011 and DIgSILENT Pacific 10th Anniversery, Melbourne February 24-26, 2011
Thank You
Markus Pöller
DIgSILENT GmbH
Heinrich-Hertz-Str. 9
72810 Gomaringen
www.digsilent.de