Reclaiming Energy from the Earth

Modular, emission-free baseload power for the future of digital and industrial infrastructure.

The Technology

Multiple Feedstocks
Waste Plastics & Rubber Tires
Post-consumer plastics and rubber tires converted to syngas via thermal decomposition — diverting waste from landfills.
Coal 1,000+ year supply
Abundant domestic coal reserves provide long-term feedstock security — processed with zero emissions.
Organic Municipal Solid Waste
Organic municipal waste converted to clean energy, drastically reducing landfill volume and methane emissions.
Agricultural Biomass e.g., Bagasse
Agricultural residues such as sugarcane bagasse and crop waste converted to clean energy at scale.
Multiple Co-Products
Energy & Water Baseload electricity + pure water
Firm, 24/7 dispatchable baseload power via the Hydriodic Acid cycle — plus pure water as a clean co-product. No grid dependency, no intermittency.
Ultra-Pure Hydrogen 99.99999% purity
Seven-nines purity (99.99999%) hydrogen — suitable for PEM fuel cells, semiconductors, and pharmaceuticals.
Green Energy Storage Grid-scale & modular
Excess energy stored at grid scale — decoupling production from demand and enabling round-the-clock clean energy dispatch.
Low-Carbon Fuels SAF & e-Methanol
Sustainable Aviation Fuel (SAF) and e-Methanol for hard-to-decarbonize transport — drop-in ready, net-zero compatible.
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Macro Challenge

An Unprecedented Grid and Environmental Collision

Modern digital and industrial economies are expanding at a velocity that legacy infrastructure cannot sustain. Hyperscale data centers require insatiable, uninterrupted, 24/7 baseload power. Concurrently, regional grids face unprecedented capacity deficits, resulting in multi-year interconnection delays that stall vital enterprise expansion.

Simultaneously, the global landscape is burdened by mounting volumes of persistent organic waste. Millions of tons of mixed polymers, massive industrial tires, and stranded, high-sulfur fossil resources sit idle—representing a severe, continuous environmental liability.

Vis e Terra dissolves both crises at a single point of interception.

Waste accumulation colliding with digital infrastructure—the dual crisis Vis e Terra resolves
Vis e Terra 3-acre modular data center power campus

The Vis e Terra Platform

Continuous, Independent Baseload Power

A unified, grid-independent energy solution that converts organic inputs directly into emission-free electricity at the point of consumption. Operating entirely isolated from the commercial grid, it eliminates utility dependence and bypasses transmission vulnerabilities entirely.

Project Economics & Financial Security

High-Yield Project Finance & Bankability

To satisfy the stringent risk profiles of institutional infrastructure financiers, the platform utilizes a strict dual-system architecture. By establishing complete physical, legal, and financial separation between the core chemical processing infrastructure and the independent power island, project risk is completely isolated. The Emerald Loop integrates five operational dimensions into a single optimized financial ecosystem.

Emerald Loop Architecture — dual-system financial structure

Up to 50% Investment Tax Credit

The deliberate separation of assets creates structural eligibility for aggressive federal tax incentives upon initial deployment.

Sub-24-Month ROI

Rapid capital expenditure recovery timelines driven by highly efficient, low-OpEx on-site processing with minimal moving parts.

Predictable PPA Pricing

Secures long-term, stable Power Purchase Agreements spanning 15+ years, insulating enterprises from volatile utility pricing structures.

Continuous Baseload Electricity

Non-intermittent, on-site energy generation operating entirely independent of public utility networks and transmission constraints.

Ultra-Pure Hydrogen

Continuous extraction of 99.9999% pure green hydrogen, instantly accessible for industrial applications or localized storage.

Pure Water Coproduction

The electrochemical process naturally generates at least 750 gallons of clean, distilled water daily for every 1 MW of configuration.

Industrial Asset Recovery

Captures 100% of substrate carbon as medical-grade CO₂, paired with regional trona minerals to manufacture commercial sodium bicarbonate.

Empirical Validation & Circular Economy

Proven Chemistry, Tangible Results

Zero-emissions liquid-phase reactor operating at 600°F
Strategic Deep-Dive: For a thorough, multi-page investigation into our chemical architecture, laboratory operations, and market trajectory, read the detailed corporate profile recently published on TechBuzz News.

The foundational science behind Vis e Terra has transitioned from theoretical modeling to continuous hardware execution. At our validation facility in West Valley City, Utah, our operational medium-scale prototype consistently demonstrates the instant breakdown of dense organic solids into ultra-pure elemental streams.

The 600°F (315°C) Thermal Ceiling

Highly toxic compounds like dioxins and nitrous oxides require temperatures exceeding 1,200°F to form. Because our system operates at a low-pressure liquid phase peaking safely at 600°F, these pollutants are physically incapable of generating.

The Fuel Cell Purity Test

By routing our generated hydrogen directly into sensitive commercial fuel cells that require 99.9% fuel purity to operate, we provide undeniable, empirical proof of our process integrity.

Market Verticals

Three Industries. One Infrastructure Decision.

30 MW / 3 acres

Digital Infrastructure

Hyperscale data center operators face grid interconnection queues measured in years, not months. A Vis e Terra installation delivers contracted, on-site 24/7 baseload power at the point of consumption—independent of utility timelines and immune to grid volatility. Utah’s SB 132 grants industrial developers the legal right to self-generate when the utility cannot meet demand on schedule.

70–120 t H₂/day

Industrial Hydrogen

Every major refinery on earth consumes 70–120 metric tons of hydrogen daily in oil distillation—virtually all of it gray hydrogen derived from natural gas at high cost and significant emissions. Vis e Terra delivers certified green hydrogen as a primary output at industrial volumes, offering a direct, cost-competitive substitution with no process modification required at the point of use.

SAF + e-Methanol

Sustainable Aviation & Maritime

The platform’s ultra-pure CO₂ and hydrogen co-outputs are Fischer-Tropsch feedstocks for sustainable aviation fuel and e-methanol at commercial scale. Airlines face binding CORSIA decarbonization mandates. Shipping operators are actively contracting e-methanol supply. Both markets require clean hydrogen and CO₂ in industrial quantities—exactly what Vis e Terra produces as an intrinsic byproduct of every deployment.

Secure Your Energy Independence

Move Beyond Grid Dependencies

Vis e Terra is actively engineering next-generation energy autonomy. Contact our corporate development team to review site licensing opportunities, evaluate feedstock compatibility, or structure a dedicated on-site power production partnership.

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