01
Patented control fill system lives on-site
We offer modular solutions depending on your needs. Whether you have a small-large farm, office, residential complex or a data center, office complex or high rise, we have a solution for you.
How It Works
Software-defined waste-heat recovery.
Phase 1 is intentionally boring on the hardware side. The patent-pending differentiator is the controller — the firmware and dispatch logic that transforms variable AI compute output into the steady, predictable supply temperature your hydronic loop expects.
Phase 1 Pilot — Live Simulation
Bursty AI heat in. Smooth, predictable heat out.
kW · 24-hour window
AI workloads are sporadic and bursty. Our controller fills the gap, in real time, so the building always sees a flat supply temperature, regardless of compute load.
02
Our heat - Your loop
Our controller fills the gaps and delivers heat when and where you need it. No envelope work, no tenant disruption. No envelope work, no tenant disruption.
03
Patent-pending controller system
AI workloads are sporadic and bursty. Our controller fills the gap, in real time, so the building always sees a flat supply temperature, regardless of compute load.
04
Gas boiler steps down
Existing boilers stay in place as backup but cycle far less. You see immediate gas spend reduction and Scope 1 cuts you can put in front of GRESB, LEED, and tenant ESG reviews.
Patent-pending control architecture. Hydronic interface uses standard plate or shell-and-tube heat exchangers. Existing gas boilers stay in place as backup capacity throughout the pilot.