Baseload power
for AI data centers
Building the next generation of resilient power infrastructure. Kore converts landfill bound organic waste into baseload power.
Building AI infrastructure is about speed to electrons and reliable power deployable in real time, with economics and operational certainty that stand up to scrutiny.
That’s speed to electrons.
Kore’s modular pyrolysis reactor, MX-1, is a closed-loop, non-combustion platform. It converts landfill organic waste into electrons.
MX-1
Unconventional large power generation potential
Resiliency
No incineration. No “burning trash”
Designed for ultra-low emissions and regulatory approval
Built to support baseload power economics through biocarbon sequestration and credit pathways
Built for data center demand
Kore's pyrolysis platform is designed for how AI infrastructure actually gets built.
Speed To Electrons
Pre-engineered, modular deployment
measured in months
Replicate for Scale
Start with one cluster, add modules as load grows; build MW the way you build compute: standard units, repeatable builds, predictable timelines.
High Energy Density, Small Footprint
Typical installations fit in roughly ~1 acre
Permittable By Design
Proven in one of the toughest
airsheds in the U.S.
Virtual Power Plant-Ready
Build a network of sites and dispatch value across markets
You don’t need to
co-locate a data center at a landfill
Kore MX-1 projects can support your energy and carbon strategy. Through book-and-claim structures and grid/credit fungibility, data center operators can contract for that power through standard market mechanisms.
Why pyrolysis is not combustion
Pyrolysis (oxygen-free) vs combustion
Lower emissions profile and better permitting posture
Stronger alignment with biocarbon-based accounting frameworks
Stronger community acceptance than "waste-to-energy incineration."