Karbonia solution

Electrochemical FlexLoad

Capture and mineralization run as a renewable-following load beside AI data centres. LCOC ≈$155/t; carbon-negative above a 47% renewable fraction*.

Feedstock: CO2 in MEA loop + reject brine / cooling blowdown + curtailed renewable powerModel-validated · pilot-pendingPatent-pending
01

What it does, and why it matters

Electrochemical FlexLoad runs capture and mineralization as a flexible, renewable-following load beside AI data centres. It soaks up surplus renewable power, shaves peak grid import, and turns curtailed electricity into verified carbon removal, at LCOC ≈$155/t and carbon-negative above a 47% renewable fraction*.

Key figure
553 t/yr
CO2 captured under dispatch (offsets 3.2% of 1 MW DC)
Key figure
155 USD/t
Levelised cost of CO2 capture (vs 230-580 DAC)
Key figure
23%
Peak grid-import reduction (1,298 to 1,000 kW)

*Model-computed at the stated reference scale; indicative and subject to pilot validation.

02

How it works

Step 01

Follow the renewable signal

Step 02

Capture and mineralize on surplus power

Step 03

Verified removal and grid flexibility

03

What leaves the gate

Verified carbon removalSoftened cooling waterGrid flexibility

Built for: Data-centre and compute developers, utilities

04

Delivered as

Containerized modular unit
Site program
Engineering package

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