Air Conditioners that Talk to Each Other Could Prevent Rolling Blackouts
By distributing the times at which electrical loads turn on — even by a few seconds — power grids can be much more robust against these issues, with no discernible impact to the end user.
When we turn on the air conditioner, we seldom think about the hundreds of other air conditioners in our neighborhood that may also be turning on simultaneously. At these peak demand times, local power grids are susceptible to brownouts and other issues. But Purdue University researchers have proposed a simple solution: air conditioners that talk to each other. By distributing the times at which electrical loads turn on — even by a few seconds — power grids can be much more robust against these issues, with no discernible impact to the end user.
“Energy use follows a predictable pattern,” said Kevin Kircher, assistant professor of mechanical engineering, Purdue University, who studies the interaction between buildings and the electrical grid. “When the outside temperature rises, air conditioners come on in the middle of the day to cool buildings down. That peak demand is easy to predict on a macro scale. But on a micro scale, that curve goes through tremendous peaks when these electrical loads are turned on.”