The Value of Battery Storage in Military Microgrids: An Assessment for ESTCP
Fixed military installations cannot function without a reliable supply of electricity. The U.S. Department of Defense?s (DoD?s) mission is under increasing threat as the power backbone of installations faces growing risk from grid power outages, especially as outages of up to one week become more frequent. To address this increasing risk, DoD is pursuing the deployment of microgrid technologies. Microgrids are an alternative to the longstanding energy security paradigm of simply attaching a back-up generator to each building with a critical function. In parallel to its pursuit of microgrids, DoD also has been successfully working with the private sector to develop solar energy assets on installations. Although bringing economic value, solar assets are not a back-up power solution in the absence of energy storage. This report summarizes the results of recent ESTCP studies to isolate under what conditions energy storage systems can cost-effectively and materially enhance energy security within a military microgrid. Integrated into a microgrid, battery energy storage can play a key role in DoD energy assurance by providing increased energy reliability at lower lifecycle costs.
Citation Formats
TY - DATA
AB - Fixed military installations cannot function without a reliable supply of electricity. The U.S. Department of Defense’s (DoD’s) mission is under increasing threat as the power backbone of installations faces growing risk from grid power outages, especially as outages of up to one week become more frequent. To address this increasing risk, DoD is pursuing the deployment of microgrid technologies. Microgrids are an alternative to the longstanding energy security paradigm of simply attaching a back-up generator to each building with a critical function. In parallel to its pursuit of microgrids, DoD also has been successfully working with the private sector to develop solar energy assets on installations. Although bringing economic value, solar assets are not a back-up power solution in the absence of energy storage. This report summarizes the results of recent ESTCP studies to isolate under what conditions energy storage systems can cost-effectively and materially enhance energy security within a military microgrid. Integrated into a microgrid, battery energy storage can play a key role in DoD energy assurance by providing increased energy reliability at lower lifecycle costs.
AU - Marqusee, Jeffrey
A2 - Olis, Dan
A3 - Becker, William
A4 - Ericson, Sean
A5 - Schultz, Craig
DB - C-MIX - Community Microgrid Information Exchange
DP - Open EI | National Laboratory of the Rockies
DO -
KW - Solar
KW - Photovoltaics
KW - PV
KW - Battery energy storage
KW - Diesel generators
KW - Other liquid-fuel generators
KW - Wind energy
KW - Financing
KW - Business models
KW - Case studies
KW - Performance
KW - Cybersecurity
KW - Local energy resources (LER)
LA - English
DA - 2020/01/01
PY - 2020
PB - NLR
T1 - The Value of Battery Storage in Military Microgrids: An Assessment for ESTCP
UR - https://cmix.openei.org/submissions/304
ER -
Marqusee, Jeffrey, et al. The Value of Battery Storage in Military Microgrids: An Assessment for ESTCP. NLR, 1 January, 2020, C-MIX - Community Microgrid Information Exchange. https://cmix.openei.org/submissions/304.
Marqusee, J., Olis, D., Becker, W., Ericson, S., & Schultz, C. (2020). The Value of Battery Storage in Military Microgrids: An Assessment for ESTCP. [Data set]. C-MIX - Community Microgrid Information Exchange. NLR. https://cmix.openei.org/submissions/304
Marqusee, Jeffrey, Dan Olis, William Becker, Sean Ericson, and Craig Schultz. The Value of Battery Storage in Military Microgrids: An Assessment for ESTCP. NLR, January, 1, 2020. Distributed by C-MIX - Community Microgrid Information Exchange. https://cmix.openei.org/submissions/304
@misc{CMIX_Dataset_304,
title = {The Value of Battery Storage in Military Microgrids: An Assessment for ESTCP},
author = {Marqusee, Jeffrey and Olis, Dan and Becker, William and Ericson, Sean and Schultz, Craig},
abstractNote = {Fixed military installations cannot function without a reliable supply of electricity. The U.S. Department of Defense?s (DoD?s) mission is under increasing threat as the power backbone of installations faces growing risk from grid power outages, especially as outages of up to one week become more frequent. To address this increasing risk, DoD is pursuing the deployment of microgrid technologies. Microgrids are an alternative to the longstanding energy security paradigm of simply attaching a back-up generator to each building with a critical function. In parallel to its pursuit of microgrids, DoD also has been successfully working with the private sector to develop solar energy assets on installations. Although bringing economic value, solar assets are not a back-up power solution in the absence of energy storage. This report summarizes the results of recent ESTCP studies to isolate under what conditions energy storage systems can cost-effectively and materially enhance energy security within a military microgrid. Integrated into a microgrid, battery energy storage can play a key role in DoD energy assurance by providing increased energy reliability at lower lifecycle costs.},
url = {https://cmix.openei.org/submissions/304},
year = {2020},
howpublished = {C-MIX - Community Microgrid Information Exchange, NLR, https://cmix.openei.org/submissions/304},
note = {Accessed: 2026-06-14}
}
Details
Data from Jan 1, 2020
Last updated Mar 30, 2026
Submitted Jun 2, 2026
Organization
NLR
Contact
Jeffrey Marqusee
Authors
