Carbon Engineered

Carbon
Removal
From Biomass

Engineering biochar systems that convert sustainably sourced wood residues into stable carbon.

Industrial Precision

Carbon Removal Infrastructure

We engineer systems that convert sustainably sourced wood into stable carbon. Our infrastructure generates durable carbon removal credits with measurable performance.

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Pyrolysis System

High-performance thermal conversion in oxygen-limited conditions.

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Carbon Stabilization

Conversion of biomass carbon into long-lived aromatic structures.

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Treaceable Sourcing

Sustainably managed forestry residue supply chains.

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Energy Recovery

Renewable energy captured as a co-product.

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Why Biochar

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Durability

Stable carbon sequestration engineered to last for over 1,000 years under appropriate soil or material conditions.

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Carbon Retention

Thermochemical conversion processes capable of stabilizing 50–80% of biomass carbon into long-lived aromatic structures.

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Deployability

Commercially proven pyrolysis technology adaptable to existing forestry and wood-processing environments.

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Modular Scalability

Standardized containerized units enabling incremental capacity expansion without structural redesign.

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Replicability

Repeatable system architecture deployable across regions with sustainable forestry residue supply.

Strategic Geography

Strategically
Located in Argentina

Argentina offers strong structural conditions for sustainable biomass conversion. A large planted forestry base and established wood industries create a durable foundation for biochar-based carbon removal aligned with global carbon markets.

1.3M+ ha

Planted Forestry

Robust

Wood Industry

Global

Carbon Markets

The Technical Flow

Industrial Process Overview

Digital MRV Control Layer

Real-time carbon accounting & verification active

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Biomass Input

Sustainable Feedstock

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Pyrolysis

Thermal Decomposition

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Process Outputs

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Carbon Credits

Verified Sequestration

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Biochar

Physical Carbon Store

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Energy

Syngas Byproduct

Our Commitment

2026

Engineering

System design and technical development

2027

Design & Build

Engineering finalization and construction start

2028

Construction

Facility build and systems installation

2029

Commissioning

Deployment and commercial operations begin

Carbon Removal From Biomass