Design, Operation, and Controlled-Island Operation of the U.S. Department of Energy Solar Decathlon 2013 Microgrid
DOI
10.2172/1215031
Publicly accessible
License
This document reports on the design and operation of a high-capacity and high-penetration-ratio microgrid, which consists of 19 photovoltaic-powered residential houses designed by collegiate teams as part of their participation in the U.S. Department of Energy Solar Decathlon 2013. The microgrid was interconnected with the local utility, and resulting net-power and power-quality events were recorded in high detail (1-minute data sampling or better). Also, a controlled-island operation test was conducted to evaluate the microgrid response to additional events such as increased loads (e.g., from electric vehicles) and bypassing of voltage regulators. This temporary ground-laid microgrid was stable under nominal and island-operation conditions; adverse weather and loads did not lead to power-quality degradation.
Citation Formats
TY - DATA
AB - This document reports on the design and operation of a high-capacity and high-penetration-ratio microgrid, which consists of 19 photovoltaic-powered residential houses designed by collegiate teams as part of their participation in the U.S. Department of Energy Solar Decathlon 2013. The microgrid was interconnected with the local utility, and resulting net-power and power-quality events were recorded in high detail (1-minute data sampling or better). Also, a controlled-island operation test was conducted to evaluate the microgrid response to additional events such as increased loads (e.g., from electric vehicles) and bypassing of voltage regulators. This temporary ground-laid microgrid was stable under nominal and island-operation conditions; adverse weather and loads did not lead to power-quality degradation.
AU - Kurnik, Charles
A2 - Lavrova, Olga
A3 - Wagner, Van
A4 - Wiegand, Greg
A5 - Frankosky, Mark
A6 - Patibandla, Siva
A7 - Butt, Robert
DB - C-MIX - Community Microgrid Information Exchange
DP - Open EI | National Laboratory of the Rockies
DO - 10.2172/1215031
KW - Solar
KW - Photovoltaics
KW - PV
KW - Power electronics and inverters
KW - Power electronics
KW - Inverters
KW - Diesel generators
KW - Other liquid-fuel generators
KW - Wind energy
KW - Maintenance and operations
KW - Operations
KW - Maintenance
KW - Commissioning
KW - Power plant controls
KW - SCADA
KW - Planning and design
KW - Planning
KW - Design
KW - Community engagement
KW - Tribal engagement
KW - Stakeholder engagement
LA - English
DA - 2015/04/01
PY - 2015
PB - NLR
T1 - Design, Operation, and Controlled-Island Operation of the U.S. Department of Energy Solar Decathlon 2013 Microgrid
UR - https://doi.org/10.2172/1215031
ER -
Kurnik, Charles, et al. Design, Operation, and Controlled-Island Operation of the U.S. Department of Energy Solar Decathlon 2013 Microgrid. NLR, 1 April, 2015, C-MIX - Community Microgrid Information Exchange. https://doi.org/10.2172/1215031.
Kurnik, C., Lavrova, O., Wagner, V., Wiegand, G., Frankosky, M., Patibandla, S., & Butt, R. (2015). Design, Operation, and Controlled-Island Operation of the U.S. Department of Energy Solar Decathlon 2013 Microgrid. [Data set]. C-MIX - Community Microgrid Information Exchange. NLR. https://doi.org/10.2172/1215031
Kurnik, Charles, Olga Lavrova, Van Wagner, Greg Wiegand, Mark Frankosky, Siva Patibandla, and Robert Butt. Design, Operation, and Controlled-Island Operation of the U.S. Department of Energy Solar Decathlon 2013 Microgrid. NLR, April, 1, 2015. Distributed by C-MIX - Community Microgrid Information Exchange. https://doi.org/10.2172/1215031
@misc{CMIX_Dataset_333,
title = {Design, Operation, and Controlled-Island Operation of the U.S. Department of Energy Solar Decathlon 2013 Microgrid},
author = {Kurnik, Charles and Lavrova, Olga and Wagner, Van and Wiegand, Greg and Frankosky, Mark and Patibandla, Siva and Butt, Robert},
abstractNote = {This document reports on the design and operation of a high-capacity and high-penetration-ratio microgrid, which consists of 19 photovoltaic-powered residential houses designed by collegiate teams as part of their participation in the U.S. Department of Energy Solar Decathlon 2013. The microgrid was interconnected with the local utility, and resulting net-power and power-quality events were recorded in high detail (1-minute data sampling or better). Also, a controlled-island operation test was conducted to evaluate the microgrid response to additional events such as increased loads (e.g., from electric vehicles) and bypassing of voltage regulators. This temporary ground-laid microgrid was stable under nominal and island-operation conditions; adverse weather and loads did not lead to power-quality degradation.},
url = {https://cmix.openei.org/submissions/333},
year = {2015},
howpublished = {C-MIX - Community Microgrid Information Exchange, NLR, https://doi.org/10.2172/1215031},
note = {Accessed: 2026-06-20},
doi = {10.2172/1215031}
}
https://dx.doi.org/10.2172/1215031
Details
Data from Apr 1, 2015
Last updated Mar 30, 2026
Submitted Jun 2, 2026
Organization
NLR
Contact
Charles, Kurnik
Authors
Keywords
Solar, Photovoltaics, PV, Power electronics and inverters, Power electronics, Inverters, Diesel generators, Other liquid-fuel generators, Wind energy, Maintenance and operations, Operations, Maintenance, Commissioning, Power plant controls, SCADA, Planning and design, Planning, Design, Community engagement, Tribal engagement, Stakeholder engagement