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Picture this: a factory that makes its own power, stores it, and has enough left over to sell back to the grid. It may sound like a thought experiment, but Siemens is running one right now in Wendell, North Carolina, at one of its industrial factories.
Here's the gist. Solar panels on top of a carport feed a battery roughly the size of a small building, which lets the whole facility run on renewables, keep operations carbon-neutral, and yes, push excess power back into the grid for other people to use. The setup is a 1.25-megawatt microgrid paired with 3.9 megawatt-hours of battery storage, and it's one of the largest industrial solar plus storage systems on Duke Energy's distribution network in the Carolinas. When the grid goes down, the factory keeps humming. When the sun is shining and production is light, the surplus goes out the door and into the neighborhood. The carport doubles as covered parking with EV chargers tied into the same system, so EVs get charged on the factory's own solar.
This is what an industrial microgrid actually looks like in practice, a real working example of solar plus storage, distributed energy resources, and smart building controls coming together to make a single site genuinely energy independent. It's also a preview of where a lot of manufacturing is heading as companies start seizing energy resilience as a competitive advantage.
If you run a facility, work in energy, or you're just curious how the grid is quietly getting rebuilt from the edges in, give this one a listen.
Show notes
Press Release: Siemens Unveils State-of-the-Art Microgrid at Wendell Headquarters, Commemorates with Electrification Celebration: https://news.siemens.com/en-us/wendell-state-of-the-art-microgrid/
By Siemens USA4.4
3636 ratings
Picture this: a factory that makes its own power, stores it, and has enough left over to sell back to the grid. It may sound like a thought experiment, but Siemens is running one right now in Wendell, North Carolina, at one of its industrial factories.
Here's the gist. Solar panels on top of a carport feed a battery roughly the size of a small building, which lets the whole facility run on renewables, keep operations carbon-neutral, and yes, push excess power back into the grid for other people to use. The setup is a 1.25-megawatt microgrid paired with 3.9 megawatt-hours of battery storage, and it's one of the largest industrial solar plus storage systems on Duke Energy's distribution network in the Carolinas. When the grid goes down, the factory keeps humming. When the sun is shining and production is light, the surplus goes out the door and into the neighborhood. The carport doubles as covered parking with EV chargers tied into the same system, so EVs get charged on the factory's own solar.
This is what an industrial microgrid actually looks like in practice, a real working example of solar plus storage, distributed energy resources, and smart building controls coming together to make a single site genuinely energy independent. It's also a preview of where a lot of manufacturing is heading as companies start seizing energy resilience as a competitive advantage.
If you run a facility, work in energy, or you're just curious how the grid is quietly getting rebuilt from the edges in, give this one a listen.
Show notes
Press Release: Siemens Unveils State-of-the-Art Microgrid at Wendell Headquarters, Commemorates with Electrification Celebration: https://news.siemens.com/en-us/wendell-state-of-the-art-microgrid/

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