We're outgrowing the grid.
TTB powers what comes next.
The Problem
AI Compute
AGI-scale clusters need reliable, sovereign baseload. The grid wasn't built for this.
Environmental Collapse
2M+ orphaned oil wells are leaking methane. No scalable cleanup model exists.
Space Infrastructure
Lunar and Martian missions demand sealed, autonomous, long-duration energy systems capable of local fuel resupply
The TTB Solution
Thorium Thermal Battery (TTB)
a self-contained underground microreactor designed to transform orphaned oil wells into carbon-free, long-term energy generators.
TTB Highlights
50K to 10MW modular core
Sealed, walkaway-safe, passive operation
Deployable at AI hubs, remote outposts, and sites with inactive wells
Converts methane-leaking well sites into permanent energy nodes
Environmental Impact
What if the future of AI was built by cleaning up the past?
Each TTB:
Replaces methane-leaking abandoned or orphaned wells (280+ tons CO2e per site/year)
Permanently remediates super-emitter sites across North America
Unlocks access to transmission-limited sites for clean power
Enables climate infrastructure (carbon sequestration, water desalinisation, etc)
Target: 5M tons CO2e prevented in 10 years
Applications
AI Compute: Reliable baseload for sovereign edge clusters
Critical Mineral Separation: Powered by high-grade waste heat from reactor cores
Methan Remediation: Convert super-emitter wells into clean power nodes
Defense & Resilience: Grid-free national security infrastructure
Off-Earth Ops: Lunar/Martian surface power, autonomous mission fuel
Remote Communities: 20-year power without fuel trucks or cables
Why Now? Why TTB?
The convergence of:
AGI heat
Orphan Well Crisis
Space ambitions
Grid collapse risk
Thorium is the fuel of the future—and it's ready today.
The Team
Team Snapshot
Founder: Sustainable infrastructure innovator, 15 years in frontier startups
Founder: Nuclear Engineer with 15 years DOE and Boeing Phantom Works
