Ad hoc microgrids guarantee stability

November 16, 2017 // By Rich Pell
Researchers at MIT in the US have developed a method that guarantees the stability of any microgrid that runs on direct current (DC).

Microgrids - small-scale power systems that supply energ locally - are increasingly being used as an alternative source of electricity in areas with unreliable or no access to a main power grid. Being more vulnerable to small disturbances, such systems are typically designed from scratch with a particular community's power needs in mind, and in a way that limits the amount of power that any one appliance can draw from a network.

This typically means simple, centralised configurations with thick cables and large oversized capacitors that increase reliability but add to the cost. In contrast, the new microgrid design process developed by the MIT researchers ensures a network's stability without relying on its particular configuration of transmission lines and power sources, offering a more reliable and lower-cost approach.

The researchers calculated the minimum capacitance on a particular load that is required to maintain a microgrid's stability, given the total load, or power, that a community consumes. Using this approach, microgrid designers do not have to start from scratch in designing power systems for each new community.

As long as the load units include capacitors of the appropriate size, say the researchers, the system is guaranteed to be stable, no matter how the individual components are connected. Such a modular design could be easily reconfigured for changing needs, such as additional households joining a community's existing microgrid.

"What we propose is this concept of ad hoc microgrids: microgrids that can be created without any preplanning and can operate without any oversight," says Konstantin Turitsyn, associate professor of mechanical engineering at MIT. "You can take different components, interconnect them in any way that's suitable for you, and it is guaranteed to work. In the end, it is a step toward lower-cost microgrids that can provide some guaranteed level of reliability and security."

From the calculations, the researchers were able to develop a framework that relates a microgrid's overall power requirements, the length of its