From underutilized
material to measured
climate impact

We align our natural chemistry method with onsite partner execution and finance-grade verification for reliable carbon removal.

Designed for durability.
Proven by measurement.

Our work starts with the science of mineralization and carbon storage, turning underutilized mineral-rich materials inside industrial facilities into solid mineral forms that hold CO₂ for the long term. We match this with clear measurement so every ton is verified.

Identify underutilized mineral-rich materials already managed on site. Review chemistry, availability and placement options with site teams. Define project boundaries for MRV. Material Fit 1 Increase surface area through material preparation such as crushing and sizing. Create consistent fractions so uptake is predictable Prepare for uptake 2 Position material for airflow and moisture in controlled areas. Balance exposure, dust control and safe operations.

This set up increases contact points where CO₂ bonds and becomes solid mineral, turning a multi-year natural process into multi-weeks. Place For Exposure 3 CO₂ binds with the material and converts to stable carbonate in place for long-duration storage. Prepare for Uptake 4 Monitoring, reporting and verification confirm removal. Credits are issued with provenance to facility, material stream and time window. Verify and issue 5

Measurement and proof

Monitoring

On-site sensors track conditions that affect the reaction. Moisture correction and baselines reduce noise.

Sampling

Periodic field samples and lab analysis confirm carbonate formation. Chain of custody is maintained.

Reporting

Field data connects to issued credits with an audit trail. Site and batch IDs and time windows are included

What this process delivers

Accelerated reaction

Material crushing and aeration enable CO₂ uptake to occur in weeks instead of years.

Durable storage

Carbon held as solid mineral with very low reversal risk.

Traceability

Each ton is linked to a site, batch and time window with documentation.

Practical delivery

Modular and repeatable across regions where suitable
material exists

FAQs

What changes are needed on site?

Material is prepared to increase surface area and placed for exposure in agreed areas.

How do credits map to what happens on the ground?

Each credit includes site and batch IDs, dates and supporting records that show how the ton was measured

How do you accelerate the reaction on site?

We enable faster uptake without adding chemicals. The mineral-rich materials are sized and crushed to increase surface area, then placedfor air and ambient moisture to reach it evenly. That setup creates many contact points where CO₂ binds and becomes solid mineral