Industrial microgrids
Behind-the-meter and campus-scale systems for high-load industrial users.
Every microgrid is local. GMI begins with the need: capacity, resilience, emissions, economics, timing, community value or operational control.
Behind-the-meter and campus-scale systems for high-load industrial users.
Staged power strategies where load growth exceeds grid timelines.
Electrification, shore power, hydrogen-ready pathways and resilience for trade infrastructure.
Secure, islandable power for facilities that cannot fail.
Energy access, resilience and local economic development in one delivery model.
Microgrids that reinforce rather than fight the larger grid.
| Layer | Examples | Design concern |
|---|---|---|
| Generation | Solar, wind, gas, hydro, waste-to-energy, CHP | Firmness, cost, emissions, land and fuel logistics |
| Storage | Battery energy storage, thermal storage, long-duration options | Duration, cycling, resilience value and dispatch |
| Controls | EMS, DERMS, protection, islanding control | Stability, interoperability and cybersecurity |
| Commercial | PPA, BOO, BOOT, community ownership, grants | Bankability and risk allocation |