Historically, central plants have been an integral part of the electric grid, in which large generating facilities are specifically located either close to fuel resources or otherwise located far from populated load centers [1]. These, in turn, supply the traditional transmission and distribution (T&D) grid that distributes bulk power to load centers and from there to end consumers.

These economies of scale began to fail in the late 1960s and, by the start of the 21st century, central plants could arguably no longer deliver competitively cheap and reliable electricity to more remote customers through the grid. Thus, the grid had become the main driver of remote customers’ power costs and power quality problems, which became more acute as digital equipment required extremely reliable electricity. Efficiency gains no longer come from increasing engineering complexity of large generators, but now from large scale mass production of smaller units located near sites of demand.





Microgrids can be constructed of a combination of resources [2], both loads and generations assets combined into a system which best meets the end consumers usage. Microgrids can also be of any size from kilowatts to megawatts, but usually have two defining characteristics, local control and full functionality both on and off grid.

Local control means the end consumer is empowered to operate the system to their best needs. You are no longer inseparable from the power quality and costs of a sole utility provider. You now have options to leverage differing costs of raw fuels and renewables to reduce your costs, green your business, and reduce your emissions as you see fit.

Full functionality both on and off grid also allows you to separate from the macrogrid during times of outage, if hazardous weather is expected, or if it makes good financial sense to operate standalone.This may also allow for the reduction or complete removal of standard backup power solutions like UPS’s as your entire facility is now backed up inherently. This means no lost costs or down time associated with a utility outage. Ultimate Reliability.





  1. “Distributed Generation—Overview”.  Wikipedia. Retrieved 26 October, 2015.
  2. About Microgrids“.  Microgrids at Berkeley Lab. Retrieved 25 October, 2015.

Microgrids in the News

Microgrid Knowledge

microgrid news, products, policy and players

Nigerian universitiesFour Nigerian universities will soon disconnect from the national grid with off-grid microgrids — part of a national program to bring microgrids to dozens of universities.
Author: Andrew Burger
Posted: July 19, 2019, 12:00 pm
micro powerA solar energy-centered microgrid start-up -- one that develops what it calls micro power systems -- is bringing electrification for the first time to towns and villages in Myanmar.
Author: Andrew Burger
Posted: July 18, 2019, 1:12 pm
electrificationPierre Delforge, an NRDC senior scientist, describes an historic decision by the city of Berkeley, California that requires electrification of all new buildings — and the trend it may foretell.
Author: Guest Post
Posted: July 17, 2019, 8:18 pm
clean energyGeorgia isn’t usually associated with bold clean energy moves, but this week state regulators decided to make some history.
Author: Elisa Wood
Posted: July 17, 2019, 2:23 pm
choosing a microgridMicrogrids are becoming more and more prevalent for good reason. But a microgrid’s unique nature can trip up even the most advanced engineers and utility staff. A new guide helps you decide if a microgrid is the best solution for your business.
Author: Guest Post
Posted: July 17, 2019, 2:15 pm