Jared Newton remembers panicking at times when launching three first-of-their-kind battery projects in Minnesota for Connexus Energy in 2019. Would lithium technology — paired with solar farms — charge fast enough in the morning to meet afternoon electric needs?
“Until I saw it in action, we didn’t know if we’d be able to get them charged in time,” said Newton, who leads engineering and system operations for the electric cooperative in Ramsey.
Newton and Connexus are local trailblazers in the fledgling world of utility batteries.
Now, Minnesota is on the brink of a large-scale rollout of the mega batteries over the next six years, putting the state on pace for a relative boom in battery infrastructure. On Thursday, state utility regulators approved a certificate of need for a $450 million project by Invenergy near Lake Wilson that would be by far the largest storage system in the state.
Utilities — plus state planners here and across the country — are counting on utility-scale batteries to help with the shift from coal to wind and solar energy in the next two decades. However, many forms of the promising technology are still mostly untested beyond pilot projects and the batteries, while they have dropped in price, are still expensive.
Xcel Energy, Minnesota’s largest electricity provider, has no batteries in the state so far but released plans in February for a sizable fleet to help as it works toward closing its coal plants by 2030. A study commissioned by the state Legislature released this month also said a battery influx is needed for utilities to meet a state target for carbon-free electricity by 2040.
“I feel like we’ve been talking about [energy storage] a long time,” said Julie Pierce, vice president of planning and strategy for Duluth-based Minnesota Power. “Now we’re really seeing the fit and form come into fruition here.”
What batteries can be used for
The biggest challenge of shifting energy sources from fossil fuels to wind and solar power is 24-hour reliability. If there’s no wind or it’s a cloudy day, it can interfere with power generation. Especially during spikes in need, utilities need a backup.
Xcel has two large nuclear plants, some hydropower and will use natural gas “peaking” plants for many years. But batteries can be used instead of gas for extra juice when demand is at its highest, like a hot summer day when people are running air-conditioning.
“We’re losing over two gigawatts of round-the-clock potential baseload power,” said Justin Tomljanovic, Xcel’s vice president of corporate development. “We’re replacing it with generally intermittent resources.”
Two gigawatts can supply enough power for up to 2 million homes.
Astrid Atkinson, CEO of California-based Camus Energy, said batteries also will play many smaller and more specific roles in a modern electric grid that has become more complex because of things like increased use of electric vehicles. Her company is working with Connexus and pitches software that acts as an air-traffic controller and helps cooperatives better use batteries.
Pilot projects and ‘baby steps’
Connexus has 15 megawatts of batteries at three sites and plans for more. It uses a form of common lithium batteries that has a short battery life but is trusted and already widely available.
Not only was the cooperative an early adopter of batteries, it still stands out. Outside of Connexus, there was only one other utility-scale battery facility in Minnesota as of December, a state study released this month found, and it is small.
The study, commissioned by the Legislature and conducted by Siemens Industry, suggested Minnesota could need between 1.35 and 2.8 gigawatts of energy storage to hit the 2040 carbon-free target. Siemens pegged the optimal amount at 1.7 gigawatts, a little more than the capacity of Xcel’s largest Minnesota coal plant in Sherburne County.
So far, Xcel has state approval for an experimental 10 megawatt, 100-hour long-duration battery with Form Energy that uses iron and the process of rusting to store power.
Great River Energy has a smaller pilot project with Form in the works, too. Cole Funseth, Great River’s manager of generation engineering, said the battery is so promising and desired by the industry because it could help over long stretches, like a polar vortex that hampers natural gas production.
Minnesota Power is a partner on the state’s other battery facility, a small lithium ion project in Grand Rapids, but the company is eyeing grant funding after unsuccessfully applying for federal help to test another long-lasting technology known as a flow battery.
“The utilities are still very much calling these pilot projects,” said Beth Soholt, executive director of Clean Grid Alliance, a trade group that represents wind, solar and battery developers. “Until they have operating experience — they can touch it, kick it, see what it does — they don’t know.”
Meanwhile, Soholt said the 15-state regional grid operator is still taking “baby steps” on batteries, writing rules for the open energy market that will be critical for developers and the future of the technology.
In this early phase, utilities also say grant money is crucial. Ryan Long, Xcel’s president in Minnesota, said in general the economics for batteries have improved. But Pierce of Minnesota Power said costs are still high, especially for technology that hasn’t been fully commercialized.
“It’s probably on the higher end of some of the [carbon-free] alternatives right now, though we do have a lot of hope for the industry,” Pierce said.
Xcel, while refusing to divulge the overall cost, got a $70 million grant to use on the Form pilot project in Minnesota and another in Colorado, as well as $20 million from a Bill Gates-founded platform.
Power surge ahead
Xcel’s new long-range plan calls for 600 megawatts of storage by 2030, which is large but less than half the power output of the large coal-fired plant in Sherburne County.
Great River plans to add 200 megawatts in 2030. The state Public Utilities Commission (PUC) approved a plan for Minnesota Power to incorporate up to 500 megawatt hours — a measure that accounts for output and duration — of storage, likely by 2030.
That is in the ballpark for how much battery storage Siemens found each utility might need. Smaller cooperatives and municipal utilities also will have to build hundreds of megawatts of batteries in total, Siemens said.
Still, the question of exactly what kind of technology the utilities will build is unresolved.