The report, entitled “Microgrids: Expanding Applications, Implementations, and Business Structures,” also details the key opportunities and barriers to ongoing expansion in the sector, along with mini-case studies of the different business models.

WASHINGTON, D.C. (Jan. 25, 2017) - A new report released today by the Smart Electric Power Alliance (SEPA) and the Electric Power Research Institute (EPRI) lays out three basic business models - third party, utility, and hybrid -- now driving growth in the microgrid market. The report, entitled "Microgrids: Expanding Applications, Implementations, and Business Structures," also details the key opportunities and barriers to ongoing expansion in the sector, along with mini-case studies of the different business models.

To date, most existing microgrid installations have taken place in more isolated campus situations, for example, at universities or military bases. Broader application of microgrids may allow for greater integration of the increased flexibility and diverse capabilities of distributed energy resources (DERs), although the specific costs and benefits still need to be considered. Specific takeaways from the SEPA-EPRI report focus on the potential of microgrids to provide a range of customer and grid solutions for greater integration of DERs, and some of the challenges that lie ahead.


• Microgrid business models are evolving along a continuum, from third-party projects to utility-initiated projects. In between, a hybrid, "unbundled" model based on public-private partnerships is emerging, which could offer more flexibility and opportunities for collaboration.
• Assigning value to microgrids - and monetizing a projects potential value streams - is complicated by the tangle of economic and industry factors involved. Clarity on price signals, rate structures, and regulations are needed for the sector to expand. Characterizing and having confidence in value streams for microgrids over time are likewise necessary for investment in these systems.
• Current technical standards can provide guidance on microgrid development, but a more detailed and nuanced set of standards is needed to help ensure interoperable designs, communication and testing practices.
"The disruptions caused by Hurricane Sandy on the East Coast amplified the need for greater grid resiliency," said Nadav Enbar, EPRI principal project manager and co-author of the paper. "As part of EPRIs Integrated Grid Initiative, we are looking at the capabilities and limitations of microgrids as well as their costs and benefits," he said.
"What we are seeing is a proliferation of microgrids designed for specific operational, regulatory and financial landscapes," said Ryan Edge, SEPA program manager and report co-author. "Our study of the different microgrid business models is aimed at supporting and expanding this diversity - and the increasing integration of DERs these systems can make possible."
As defined in the paper, a microgrid is any small-scale, localized power system with its own generation resources, loads, and definable boundaries that can disconnect, or "island" itself, from the grid for short periods during grid outages. Often incorporating renewable energy and storage, these systems can transport, distribute, and regulate the supply of electricity to customers.
"Microgrids: Expanding Applications, Implementations, and Business Structures" and the reports free executive summary are available here.

About SEPA
The Smart Electric Power Alliance (SEPA) is an educational nonprofit working to facilitate the utility industrys transition to a clean energy future through education, research and collaboration. SEPA offers a range of research initiatives and resources, as well as conferences, educational events and professional networking opportunities. SEPA is co-founder and co-sponsor of Solar Power International and winner of the Keystone Policy Centers 2016 Leadership in Energy Award. For more information, visit www.sepapower.org.
About EPRI
The Electric Power Research Institute, Inc. (EPRI, www.epri.com) conducts research and development relating to the generation, delivery, and use of electricity for the benefit of the public. An independent, nonprofit organization, EPRI brings together its scientists and engineers as well as experts from academia and industry to help address challenges in electricity, including reliability, efficiency, affordability, health, safety, and the environment. EPRI members represent 90 percent of the electric utility revenue in the United States with international participation in 35 countries. EPRI's principal offices and laboratories are located in Palo Alto, California; Charlotte, North Carolina; Knoxville, Tennessee; and Lenox, Massachusetts.