High Power Grid-Connected Inverters: Selected Aspects of Design ...
Grid Forming Inverters in Interconnected Systems · 2018-11-26 · GFM inverters were studied and...
Transcript of Grid Forming Inverters in Interconnected Systems · 2018-11-26 · GFM inverters were studied and...
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P R E S E N T E D B Y
Sandia National Laboratories is a multimission
laboratory managed and operated by National
Technology & Engineering Solutions of Sandia,
LLC, a wholly owned subsidiary of Honeywell
International Inc., for the U.S. Department of
Energy’s National Nuclear Security
Administration under contract DE-NA0003525.
Grid Forming Inverters in
Interconnected Systems
Abraham Ellis
ael l i s@sandia .gov
SAND2018-11666 C
C O - AU T H O R S
• Brian Johnson, University of Washington
• Rober t Lasseter, University of Wisconsin
• Yashen Lin, National Renewable Energy Laborator y
• Ryan Ell iott , Brian Pier re, Sandia National Laboratories
• Joseph Eto, Lawrence Berkeley National Lab
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The grid of the future
More wind and solar generation, more storage, more electronic load (e.g., EV). All distributed and inverter-based
Lower system inertia, faster dynamics, more challenging control requirements.
Extremely difficult to approach 100% share in large interconnected systems.
Grid Forming Inverters deserve careful consideration as a potential solution.
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Grid following Vs grid forming inverter controls
Two fundamental types of inverter controls
Grid Following Control (GFL) Grid Forming Control (GFM)
Controls current and phase angle Controls voltage magnitude and frequency
Control of active & reactive power as well as fault currents
Instantaneously balances loads withoutcoordination controls
Cannot operate standalone Can operate standalone
Cannot achieve 100% penetration Can achieve 100% penetration
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Two 1.2 MW backup diesel generators
Distributed Energy Resources Management System (DERMS)
2 MW/4 MW-hrenergy storage system
1 MW fuel cell
1.2 MW rooftop solar PV system
Five 2.3 kW wind turbines
Static disconnect switch at the
“point of common coupling”
Utility Interface
When a disturbance to the utility grid occurs, the automatic disconnect switch enables the facility to “island” itself from the main utility grid.
GFM inverters were studied and deployed in DOE/CERTS microgrids
Santa Rita Jail Microgrid, dedicated 3/22/2012.
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GFM inverters were studied and deployed in DOE/CERTS microgrids
Seamlessly switches between grid and island operation and back
Stable without communications
Sources are plug-and-play
Proven in microgrid applications
E. Alegria, T. Brown, E. Minear, R. Lasseter,
“CERTS Microgrid Demonstration With
Large-Scale Energy Storage and Renewable
Generation,”, IEEE Transactions on Smart
Grid, Vol. 5, No. 2, March 2014.
C. Marnay, N. DeForest, M. Stadler, J.
Donadee, C. Dierckxsens, G. Mendes, J.
Lai, and G. F. Cardoso, “A green prison:
Santa Rita Jail Creeps Towards Zero Net
Energy (ZNE),” in Proc. ECEEE, 2011.
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What about GFM inverters operating as part of large grids?
Many open questions…
How do GFM inverters behave in a large interconnected system?
How does a system defined by GFM inverters behave? What are the fundamental dynamic characteristics?
What are the most promising GFM control architectures? What functions & operating modes are required?
How are the GFM inverter hardware requirements?
How do we protect the network?
What are the modeling gaps for large-scale simulation?
etc., etc.
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Preliminary observations – frequency control with low inertia
Simulated frequency response for 5% load drop event, as a function of residual inertia
(a) (b) (c)
20% 50% 80%
Time(s) Time(s)
Grid following (GFL)
inverters with freq-
watt functionality
Grid forming
(GFM) inverters
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Aggregated PV outputFrequency
Case study – O’ahu, Hawai’i, 50% distributed PV
System at 920 MW load, 466 MW PV
Event is loss of 62 MW load
GFL controls w/
frequency-watt function
GFM CERTS controlsGFM inverters
responds much faster
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Total System LoadFrequency
Case study – O’ahu, Hawai’i, 50% distributed PV
System at 1,080 MW load, 540 MW PV
Event is loss of 200 MW generator
GFL controls with
frequency-watt function
GFM CERTS controls
Load tripping
events
Better frequency control
avoids load tripping
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M. E. Khatib, W. Du, R. Lasseter, “Evaluation of Inverter-based
Grid Frequency Support using Frequency-Watt and Grid Forming
PV Inverters”, SAND ID #659600
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A current USDOE GFM controls project, led by NREL
Develop and implement in hardware GFM controls, specifically Virtual Oscillator Controls (VOC)
Study methods to aggregate distributed inverters for large-scale simulations
Assess GFM modeling requirements for large-scale simulation platforms (e.g., PSSE, PSLF)
Compare performance vs. GFL inverters for increasing % share
Identify research gaps and priorities for possible future investment
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GFM/VOC project – Controls development, hardware implementation
The VOC is implemented and tested in two sets of hardware test beds:
◦ NREL customized multi-inverter hardware test bed.
◦ Off the shelf multi-inverter hardware test bed with SunPower.
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Johnson BB, Sinha M, Ainsworth NG,
Dörfler F, Dhople SV. Synthesizing
virtual oscillators to control islanded
inverters. IEEE Transactions on
Power Electronics. 2016
Aug;31(8):6002-15.
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GFM/VOC project – Model aggregation for system studies
Developed model aggregation method, validated using prototype VOC inverters
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[2] Scaling laws for grid forming: M. Khan, B.
Johnson, V. Purba, and S. Dhople, “A Reduced-
order Aggregated Model for Parallel Inverter
Systems Controlled with Virtual Oscillator
Control,” Workshop on Control and Modeling
for Power Electronics, 2018.
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GFM/VOC project – Model aggregation for system studies
Custom PSLF model of GFM VOC controls
Preliminary simulation results with 39-bus system representative of large grid (e.g., WECC)
Refinement and validation efforts under way
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System at ~50% share of inverter-based generation (PV)
Simulated a generator trip (Unit 10, ~4% of pgen)
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Upcoming USDOE Workshop – You are Invited!14
Grid-Forming Inverters for Low-inertia Power Systems
February 26-27 *, 2019 – NREL, Golden Colorado, USA
Confirmed Speakers:Vijay Vittal (ASU), ark Ahlstrom (NextEra Energy), Danny Zimmanck (Enphase), Thibault Prevost (RTE), Alejandro
Domingues Garcia (UIUC), Aranya Chakraorty (NCSU), Marcelo Colombino (NREL), Scott Mason (SEL), Kevin Schneider (PNNL), Duncak Calloway (UC-Berkeley), David Porter (S&C Electric), Deepak Romasubramanian
(EPRI), Ulrich Muenz (Siemens), Philipp Strauss (Fraunhofer-IWES)
For more information, contact:
Brian Johnson, [email protected] Yashen Lin, [email protected] Abraham Ellis, [email protected]
This workshop will gather experts from universities, research institutes, equipment manufactures and utilities interested in Grid Forming Inverters. Participants will review
the state-of-the-art, and identify future research needs.