Growing Market for Remote Microgrids in Rural, Cold Regions

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Growing market for remote microgrids

Energy Storage in Remote, Cold Regions Allows for More Renewable Energy

Microgrids in remote, cold regions provide numerous benefits, including reducing the use of diesel fuel. That’s why there’s a growing market for remote microgrids and energy storage in these areas, says Jim McDowall, business development manager for Saft America’s ESS Business Unit.

The company recently delivered its cold-weather battery storage system to Kotzebue Electric Association (KEA), an electric cooperative based in Kotzebue, Alaska, where residents pay some of the highest costs for energy in the nation. The system backs up an existing hybrid wind-diesel system located above the Arctic Circle in Alaska’s Northwest Arctic Borough.

The region–where the average temperature is 22 degrees fahrenheit–is not connected to a grid or road system, and has historically been dependent on diesel generators.

“Remote power is driving the market for our cold weather energy storage system,” says McDowall. “These systems run with diesel fuel, which is challenging to transport to these remote and cold locations in large quantities. The emphasis for these remote power grids is to save diesel fuel, for cost-savings and environmental purposes.”

The growing market is made up of the hundreds of village communities across Alaska and Northern Canada that have few microgrids. 

With Saft’s energy storage system, the microgrid will be able to ride through fluctuations in wind output and  time-shift excess wind energy, McDowall says.

Turning off diesel generation is more important than time-shifting in this application, he adds.

Without storage, KEA–a co-op that operates the community-owned microgrid–would have to leave diesels running at partial output, just in case the wind output ramps down.

“With storage, those diesels can be shut down, and, when started, can be operated at optimum efficiency. When the wind output ramps down, an energy controller commands the ESS to discharge so that the load continues to be supported. This discharge continues until the wind ramps back up or until a state of charge limit is reached, whereupon a diesel is started,” he says.

In the far north, wind is generally used in coastal regions and PV in the interior, he says. Storage is necessary to allow for higher penetration of renewable energy.

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  1. […] in cold regions. Microgrid Knowledge maps out the rationale: These areas – the story focuses on the use of a microgrid from Saft America’s ESS business unit by the Kotzebue Electric Association … – can use microgrids to reduce reliance diesel fuel to run generators, which is expensive to ship […]

  2. […] up across the globe, but colder climates, particularly those located in the Arctic Circle, are uniquely poised for microgrid development. Alaska, for example, has a large rural population that live in remote areas, including islands. […]