study of energy storage connection to wind - sandia.gov · 6 6 where are we now: 1. detailed single...
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Work performed by Virginia Tech
Faculty: Yilu Liu
Graduate Students: Will Kook, Keith McKenzie
Oct. 20, 2005, San Francisco CA
Study of Energy Storage Connection to WindDOE Project Peer Review Meeting
DFACT/DER Subtask
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The project is sponsored by the DOE Office of Electricity Delivery and Energy Reliability under the Energy Storage Program directed by Dr. Imre Gyuk
The project is managed through Sandia National Laboratories, John D. Boyes, Manager
of Energy Infrastructure and Distributed Energy Dept.
Project Technical Leader at Sandia is Stan Atcitty
Acknowledgement
DFACT/DER Subtask
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3Subtask 3a: Energy Storage Evaluation for DFACTS/DER Application
• This task will focus on technology evaluation of various energy storage technologies such as battery, SMES, electrochemical capacitors, and fly wheel energy storage that is amenable for the wind energy applications. The selection will be based on near term application, economic,footprint, and electrical performance. In addition, software models will be developed for the energy storage technology.
• Deliverable: Report describing the evaluation results and models developed due Jan. 15, 2006.
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4Objectives
• Evaluation of energy storage technologies amenable for the wind power applications (such as battery and electrochemical capacitors)
• Study the grid connection issues• Understand the energy storage system (ESS)
distribution issues• Understand the interaction of multiple wind turbine
generators (WTGs) and ESS in a wind farm (grid connected)
The focus above is on transient or dynamic issues
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5Proposed Approach at the June 2005 Project Kick-off Meeting
• Single unit modeling to study the ESS impact on WTG operation with power grid connection - may need develop new models in EMTDC- average model may be required
• Multi unit modeling to study the ESS impact on wind farm operation (PSS/E)- start with single unit operation in test system- interaction of multi-unit wind farm of actual power system
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Where are we now:
1. Detailed single unit modeling with PSCADDeveloped wind model in PSCAD
Developed simple converter model for ESS connection
Begin to test the connected system
2. System level study of ESS connections to wind power with PSS/E simulations
Single WTG and ESS connected to grid
Multiple WTGs and ESSs connected to Grid
Sample case study
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Detailed PSCAD Modeling
• Variable speed operation – Power electronics interface between generator and grid– Convert variable frequency output of generator to 60 Hz output at
grid• Power electronics interface comprised of three sections
– 3-phase rectifier– DC link (possible energy storage location)– 3-phase inverter
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PSCAD Model: 3-Phase Rectifier, DC Link
•3-phase diode rectifier chosen•DC link - interface between rectifier and inverter
–Location for energy storage (batteries, electrochemical capacitors, SMES)–Location for fuel cells, solar cells - provide additional active power
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PSCAD Model: 3-Phase Inverter
• Standard three-leg, six-switch voltage source inverter (VSI) • Transformer: step up inverter voltage (2 kV) to utility voltage (13.8 kV)• Switch:
– IGBT, antiparallel diode– Synchronized sine-triangle PWM for control
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System level study - Dynamic Model in PSS/EWind Turbine Generators(WTG)
General Electric 1.5 MW WTG
General Electric 3.6 MW WTG
Vestas V47, 0.66 MW WTG
Vestas V80, 1.8 MW WTG
Each of models are defined by various ‘sub-modules’
: Aerodynamic model, Generator control model, Generator model, Pitch angle control model,
Some of ‘sub-modules’ are shared between GE and Vestas models
: Wind model, Shaft model, under/over frequency generator tripping replay, under/over voltage generator tripping replay
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Employing Power Grid
23 BUSES
6 MACHINES
8 LOADS
34 BRANCHES
∑PG : 3258.7MW
∑ PL : 3200.0MW
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CASE1: Analysis of ESS compensation – ConfigurationConfiguration of single WTG and ESS connection to the power grid
ESS is controlled to keep the active power flow from wind farm to PCC bus
as a specified value
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CASE1: ESS compensation – simple wind gust case
Green: Power Flow from wind farm to PCC w/o ESS
Purple: Power Flow from wind farm to PCC w/ ESS
Yellow &Blue: wind speed
Black&Light Blue:Pg from WTG
WTG: GE 1.5MW
ESS: Battery 1.5MW
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CASE2: Distributed ESS vs. Concentrated ESS
ESS is aggregated as one unit (±12MW, ±12Mvar), and connected to the terminal of the wind farm
10 units of EPRI battery (±1.2MW, ±1.2Mvar) are connected to each WTG
ESS
ESS compensation to keep the active power from either individual WTG or total WTG outputs constant
Control Strategy
Assume constant wind speed (14m/sec) for 5 WTGs, and wind variations for the other 5 WTGs.Wind
10 units of WTG(GE 3.6 MW each) 1% of ∑PG in systemWTG
Aggregated ESSDistributed ESS
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CASE2: Configuration of the distributed ESS
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CASE2: Distributed ESS, group of WTG with wind variation
Green: Power Flow from wind farm to PCC
Blue: Power Flow from each WTG/ESS to PCC
Light Blue: Pg from each WTG
Purple: Wind speed
Yellow: Pitch angle
Black: Pg from ESS
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CASE2: Configuration of the aggregated ESS
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CASE2: Aggregated ESS, WGT with wind variation
Green: Power Flow from wind farm to PCC
Blue: Pg from each WTG
Light Blue: Wind speed
Purple: Pitch angle
Yellow: Pg from ESS
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CASE3: Response to 3 phase bus fault in power gird
3 phase fault occurs on the bus of 203
The fault is cleared after 5 cycle, and the line from 202-203 is tripped
10 ESS are connected to each of 10 WTG
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CASE3: Response to 3 phase bus fault - Results
Green: Power Flow from wind farm to PCC
Blue: Pg from each WTG
Light Blue: Wind speed
Purple: Pitch angle
Yellow: Pg from ESS
Black: Voltage on PCC bus
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Possible Tasks for Future Study
The component -level case studies for WTG/ESS using EMTDC
Study of the ESS compensation for alleviating the operational issues of grid connected wind farm
Study the Interactions of WTG in a wind farm with ESS
Study of the energy management of ESS for coordinating with WTG
Study of the advanced control strategy for the distributed ESS