Design, Modeling, and Control of Hybrid Energy Storage System for Defense Installation Microgrids

Tim Hansen | 350Solutions, Inc.

EW19-5277

Objectives of the Demonstration

This project optimizes energy storage implementation in Department of Defense (DoD) microgrids. Integrated modeling and design methods optimize a microgrid that can contain multiple energy storage asset types – a hybrid energy storage system (HESS) approach – in conjunction with diesel and renewable generation platforms.

Objectives

  • Demonstrate the value of integrating optimized energy storage solutions, including multi-asset HESS within DoD microgrids;
  • Improve energy security performance, including critical load coverage for 24 hour and 7 day outage scenarios as a function of cost vs. similar microgrid without storage at DoD facilities;
  • Demonstrate controls techniques to improve revenue from energy market participation.

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Technology Description

Storage technologies evaluated broadly covered current commercially available storage approaches and chemistries, and included ultracapacitor, lithium ion, lithium iron phosphate battery (LiFePO4), zinc hybrid cathode, sodium sulfur, and flow battery technologies. This allowed modeling of storage integration considering a range of key technology attributes, such as C-rate, efficiency, and life.

An optimized microgrid and energy storage platform with integrated analytics and controls was utilized to evaluate potential HESS solutions. The approach combines economic optimization through the XENDEE platform and Arizona State University’s energy security model to evaluate energy asset portfolios, critical load coverage probability, economic performance, and asset dispatch strategies, ensuring energy security metrics are achieved while providing the lowest cost energy.

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Demonstration Results

Primary conclusions of the study were that:

  • For sites with little existing renewable generation, limited market participation options, and no ability to utilize incentives for renewables or storage investments, the integration of energy storage provides limited or no benefit economically;
  • For sites where incentives can be considered, storage-enabled microgrids can:
    • improve energy security over 24-hour and 168-hour outages;
    • provide increased ability to meet in excess of 100% of critical load without resizing the system;
    • reduce fuel use during 7-day outages at most facilities by up to 22%;
    • integrate on-grid economic optimization with off-grid reliability to provide resilience with potential rapid return on investment at sites with significant market participation potential.

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Implementation Issues

  • Three primary factors dominate economic performance: microgrid cost, available on-site photovoltaic (PV) generation, and local utility wholesale market participation and ancillary service revenues.
  • Optimizing the entire microgrid, with a focus on the optimizing sizing and integration of PV generation with energy storage can provide significantly improved economics.

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Points of Contact

Principal Investigator

Mr. Tim Hansen

350Solutions, Inc.

Phone: 919-675-6432

Program Manager

Energy and Water

SERDP and ESTCP

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