Infrastructure Coordination
Behind-the-Meter
Baseload Power
Up to 100 MW of dedicated baseload power delivered behind the meter — scalable with on-site turbine generators — under a long-term PPA at sub-grid pricing. Built for AI compute, hyperscale data centers, and enterprise operations.
Behind-the-Meter
Baseload Power
Operational Briefing
Grid-independent baseload infrastructure engineered for AI compute, hyperscale deployment, and long-term operational resiliency
How the Power Scales.
PCS processes Municipal Solid Waste (MSW) into reliable, dispatchable energy through advanced thermal-capture infrastructure designed for long-term industrial and enterprise deployment.
Additional power capacity is delivered through modular turbine generation utilizing clean-burning, hydrogen-enriched biodiesel fuel.
PCS brings you the power you demand — behind the meter, off-grid, and directly at the location you need.
• Dispatchable baseload power — not weather dependent
• Behind-the-meter and grid-independent deployment
• Rapid modular scalability at the point of use
• Long-term PPA opportunities at sub-grid pricing
• Integrated waste-to-energy and compute infrastructure
• Designed for AI compute, industrial operations, and resilient critical infrastructure
100 MW
Thermal Capture Baseload Infrastructure
Continuous, weather-independent baseload power generated from integrated MSW processing and thermal energy recovery systems.
100 MW+
Modular Turbine Expansion
Scalable on-site turbine generation using hydrogen-enriched biodiesel fuel to rapidly expand available capacity based on operational demand and deployment growth.
Operational Briefing
Capacity specs.
Continuous Baseload Output
Up to 100 MW of dedicated thermal-capture baseload power delivered behind the meter through co-located infrastructure deployment
Scalable Turbine Generation
Additional on-site turbine generators expand dispatchable power capacity using hydrogen-enriched biodiesel produced through the conversion process
AI Compute Infrastructure
Engineered for GPU-heavy compute environments requiring sub-grid pricing structures and dedicated infrastructure capable of handling high-wattage rack densities.