Energy & Environment

Designed for the grid we wish we had.

Our sustainability model isn't a procurement contract — it's a physical system: closed-loop cooling, on-site renewables, and a power architecture that doesn't depend on the utility for uptime.

Wind turbines, solar panels, and hydrogen fuel cell installations at a clean energy site

The Model

Behind-the-meter, by design.

We generate power where we consume it. Wind, fuel cells, and hydrogen-ready prime power are stacked behind the utility meter so our tenants get capacity that isn't bottlenecked by transmission queues — and a carbon profile that doesn't depend on the local grid mix.

Paired with closed-loop cooling, the result is a facility that uses dramatically less water than industry baseline.

Systems

Six commitments. One operating discipline.

Closed-loop water

Recirculating cooling loops reuse the same water continuously, slashing withdrawal and discharge to a fraction of conventional designs.

Environmental protection

Sealed thermal systems eliminate evaporative blowdown and contain chemistries on-site — protecting local watersheds.

Wind generation

Direct integration of on- and near-site wind capacity into the campus power stack.

Fuel cells & hydrogen

Stationary fuel cells and hydrogen-ready prime power deliver clean, dispatchable energy independent of the grid.

Behind-the-meter

Generation, storage, and conversion all live behind the utility meter — locking in price, capacity, and carbon profile.

N+1 with UPS

Every critical system — power, cooling, distribution — is concurrently maintainable with full UPS coverage on every load.

Proof Point

LEED Gold, in production today.

Our operating data center is LEED Gold certified — every system described on this page is running there now, validated under real load, and replicated into every site in our pipeline.