Some engineers are dusting off an old idea for storing energy—using electricity to liquefy air by cooling it down to nearly 200 °C below zero. When power is needed, the liquefied air is allowed to warm up and expand to drive a steam turbine and generator.
The concept is being evaluated by a handful of companies that produce liquefied nitrogen as a way to store energy from intermittent renewable energy sources. Liquefied air might also be used to drive pistons in the engines of low-emission vehicles.
One company, Highview Power Storage of London, has raised $18 million and built a pilot plant that will use liquid air to store power from the grid. Highview has teamed up with Messer, the large industrial gas company, to help develop the technology. If all goes well, the U.K. government may fund the development of a larger plant that could establish its commercial viability. Meanwhile, the engineering consultancy Ricardo is developing two types of engines that could use liquid nitrogen, based on technology from a Highview Power spinoff called Dearman Engine.
Storage for the power grid is becoming more important as use of renewable energy increases. In the near term, natural-gas power plants and fast-responding storage technologies such as batteries can keep the grid stable . But if renewables are to reach a very large scale, or if we want to reduce the use of fossil-fuel backup power plants, technologies that can store hours’ or days’ worth of power will be needed.
In this effort, cost is key. “When we’re looking at energy storage mechanisms, we’re looking for something that’s based on extremely low-cost materials and very simple processes we can do in bulk,” says Haresh Kamath, program manager for energy storage at the Electric Power Research Institute. “And this certainly fits the bill.”
Highview Power’s process is 50 to 60 percent efficient—the liquid air can yield just over half as much electricity as it takes to make it. Batteries, by contrast, can be more than 90 percent efficient. But the new process can make up for its inefficiency by using waste heat from other processes . Highview has demonstrated that low-temperature waste heat from power plants or even data centers can be used to help warm up the liquefied air. The system can also last for decades, while batteries typically need to be replaced every few years. This longevity could help reduce overall costs.
Liquid air might also prove useful in cars and trucks. An inventor named Peter Dearman has made a compact system that, instead of relying on large heat exchangers, uses antifreeze injected into an engine’s combustion chamber to recycle heat that would otherwise be wasted. He built a ramshackle prototype and showed that it could power a car. Ricardo is working on a version that could eventually be commercialized.
Liquid air stores energy at about the density of nickel–metal hydride batteries and some lithium-ion batteries, the kind used in hybrid and electric cars now. But it has a key advantage—it can be poured into a fuel tank far faster than a battery can be recharged, says Andrew Atkins, a senior technologist at Ricardo. The engine would run on liquid nitrogen—basically liquid air with the oxygen removed—and would emit only nitrogen. The carbon emissions associated with the engine would depend on the power source used to liquefy the nitrogen. Ricardo is also developing a diesel engine that’s augmented with liquid nitrogen to improve its efficiency by about 50 percent.