![]() ![]() In February 2018, MassCEC awarded $1.05 million in funding, which resulted in 13 feasibility studies of projects in communities throughout the Commonwealth. Moreover, smart grid applications such as load control and demand response, and energy trading are dependent on the ICT system. The program awarded funding for feasibility assessments to advance proposed microgrid projects through the early project origination stages and attract third-party investment to these opportunities. The Community Microgrids program supported the design of community microgrids throughout Massachusetts to lower customer energy costs, reduce greenhouse gas (GHG) emissions, and provide increased energy resilience. Microgrids are a growing segment of the energy industry, representing a paradigm shift from remote central station power plants toward more localized, distributed generationespecially in cities, communities and campuses. Microgrids are small, self-contained electric-power grids with the capability to connect and disconnect seamlessly from the traditional grid. businesses are concluding that they need the type of business continuity, cost predictability and sustainability goal-aligned energy solutions that microgrid-plus-storage installations offer. The first part, discussing market dynamics, can be found here. With few previously existing models in Massachusetts, however, municipalities needed help designing such solutions for their communities. Editor’s note: This is the second article in a two-part series about microgrids. Microgrids have the potential to provide cost-effective energy resilience for critical facilities, while also supporting the local distribution system, integrating renewable energy sources, and reducing greenhouse gas emissions. ![]() The Challenge: Catalyze the Development of Community Microgrids ![]()
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