IEEE Power & Energy Magazine - Grid Edge 2023 - 1
ma g azine
www.ieee.org/power
Real-World Applications
We have now started to move out of the laboratory to demonstrate
the deployment of AEGs in the real world. The team
has been working with Holy Cross Energy (HCE), a utility
cooperative near Aspen, Colorado, to deploy the AEG technology
in a group of smart homes in Basalt, Colorado. The smart
homes in Basalt Vista (Figure 10) are a pilot for an altogether
new approach to the grid. These homes optimize energy for
residents and their neighbors, but the principles behind Basalt
Vista go much further. Within homes, each new connected
device or energy resource, such as a residential battery, water
heater, or solar PV system, can be controlled for unprecedented
energy efficiency. At a larger scale, entire communities could
rapidly share power, creating reliable energy for everyone.
HCE had been searching for a solution to managing new
on the cover
40 A Society of Devices
By Koen Kok and Steve Widergren
devices on its system. This has included a mix of customer
energy technologies and bulk generation resources since the
decreasing costs of connected customer-owned devices have
made these systems much more affordable. HCE's grid has
seen 10-15 rooftop solar installations per week, and it has
been increasing its solar base for years, planning for a 150-MW
summer peaking system through 2030.
In another real-world experiment, we used our real-time
features
28 Twilight of the Grids
By Thomas Stetz, Jan von Appen, Fabian Niedermeyer,
Gunter Scheibner, Roman Sikora, and Martin Braun
optimization algorithms to coordinate assets in the Stone
Edge Farm Estate Vineyards & Winery in Sonoma Valley,
California (Figure 11). The winery is a microgrid with tens
of DERs, including PV systems, batteries, a hydrogen electrolyzer,
a gas turbine, and controllable loads. The experiment,
conducted in collaboration with the Massachusetts
Institute of Technology-born startup company Heila Technologies,
showed how our approach can help self-optimize a
cell within the future AEG vision, achieving voltage regulation
and allowing the microgrid to become a virtual power
plant that can provide services to the distribution system.
52 Technological Developments in Batteries
By Xiaosong Hu, Changfu Zou, Caiping Zhang, and Yang Li
64 How Electric Vehicles and the Grid Work Together
By Jairo Quirós-Tortós, Luis (Nando) Ochoa,
and Timothy Butler
Conclusion
AEGs of the future will need to control and optimize millions
of controllable devices in real time. A traditional central
optimization approach to this problem is infeasible because
of the computational cost. Therefore, robust, scalable, and
predictive hierarchical and distributed control algorithms
with provable convergence are needed to optimize the grid
in real time. NREL has developed these scalable algorithms
to enable the proliferation of DERs on a massive scale.
A fundamental underpinning of AEGs is the ability to accu77
Grid-Forming Inverters
By Julia Matevosyan, Babak Badrzadeh, Thibault Prevost,
Eckard Quitmann, Deepak Ramasubramanian, Helge Urdal,
Sebastian Achilles, Jason MacDowell, Shun Hsien Huang,
Vijay Vital, Jon O'Sullivan, and Ryan Quint
november/december 2020
87 Autonomous Energy Grids
By Benjamin Kroposki, Andrey Bernstein, Jennifer King,
Deepthi Vaidhynathan, Xinyang Zhou,
Chin-Yao Chang, and Emiliano Dall'Anese
97 Mobile Energy Storage Systems
By Shadi Chuangpishit, Farid Katiraei,
Babu Chalamala, and Damir Novosel
103
April 2023 Show Issue
ieee power & energy magazine
1
rately model the cellular building blocks and their interactions
with the rest of the systems so that control, optimization, and
forecasting methods might be applied in operation. NREL is
also building computational tools that can cosimulate multiple
technologies on the grid to design and evaluate these scalable,
distributed control and optimization algorithms using high-performance
computing. In addition, NREL has taken the preliminary
steps of demonstrating these algorithms in real time for
real-world devices in the laboratory and now in smart homes.
Additional work will be needed in controls, optimization, data
figure 9. The inverters under test in the ARPA-E NODES
experiment. (Source: NREL; used with permission.)
analytics, complex systems, and cybersecurity to implement the
AEG across the entire U.S. grid.
Building on the distributed optimization techniques that
have been developed, additional thought needs to be given to the
design of future market mechanisms to systematically account
for payment/rewards to exchange energy and the provision of
ancillary services among autonomous cells and devices. The
ideas of transactive energy will need to be considerably
2023 Official Show Issue
IEEE PES Grid Edge
Technologies Conference &
Exposition
...a 2023 reprint journal from PES
95
figure 10. The smart homes in Basalt, Colorado. (Source:
NREL; used with permission.)
ieee power & energy magazine
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IEEE Power & Energy Magazine - Grid Edge 2023
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