A water recovery system that delivers added benefits.

Each function amplifies the other, creating a positive cycle of climate and commercial value.

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The foundations of our approach

Water recovery

Waste brine poses a major challenge for industrial facilities, representing both a significant cost and an environmental liability.

We see it as an untapped resource. By reducing baseline costs and valorizing the salt (NaCl) contained in brine, we convert this traditional cost center into a valuable resource – creating new revenue streams while simultaneously delivering positive climate impact.

Carbon removal

The same chemistry that recovers fresh water from brine also enables durable carbon removal. We chemically convert the NaCl in waste brine into our carbon capture solvent. This solvent binds to CO2 in the atmosphere to enable permanent and verifiable removals.

Our integrated system

Water treatment

We recover fresh water from brine and produce sodium chloride solution (NaCl) as the feedstock for our carbon capture process.

Electrochemical conversion

Through electrochemistry, NaCl is transformed into a solvent designed for direct air capture (DAC).

Carbon capture

The solvent absorbs CO₂ from the atmosphere and locks it away as stable carbonates. Each cycle delivers permanent storage while multiplying environmental value.

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Project Wallaby

Western Australia

Green transition partners enable Project Wallaby to thrive in water stressed Western Australia.

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A water recovery system that delivers added benefits.

The foundations of our approach

Water recovery

Carbon removal

The same chemistry that recovers fresh water from brine also enables durable carbon removal. We chemically convert the NaCl in waste brine into our carbon capture solvent. This solvent binds to CO2 in the atmosphere to enable permanent and verifiable removals.

Our integrated system

Water treatment

We recover fresh water from brine and produce sodium chloride solution (NaCl) as the feedstock for our carbon capture process.

Electrochemical conversion

Through electrochemistry, NaCl is transformed into a solvent designed for direct air capture (DAC).

Carbon capture

The solvent absorbs CO₂ from the atmosphere and locks it away as stable carbonates. Each cycle delivers permanent storage while multiplying environmental value.

Project Wallaby

Western Australia

Green transition partners enable Project Wallaby to thrive in water stressed Western Australia.

AUSTRALIA 29.4282° S 115.0073° E

A water recovery system that delivers added benefits.

The foundations of our approach

Water recovery

Carbon removal

The same chemistry that recovers fresh water from brine also enables durable carbon removal. We chemically convert the NaCl in waste brine into our carbon capture solvent. This solvent binds to CO2 in the atmosphere to enable permanent and verifiable removals.

Our integrated system

Water treatment

We recover fresh water from brine and produce sodium chloride solution (NaCl) as the feedstock for our carbon capture process.

Electrochemical conversion

Through electrochemistry, NaCl is transformed into a solvent designed for direct air capture (DAC).

Carbon capture

The solvent absorbs CO₂ from the atmosphere and locks it away as stable carbonates. Each cycle delivers permanent storage while multiplying environmental value.

Project Wallaby

Western Australia

Green transition partners enable Project Wallaby to thrive in water stressed Western Australia.

AUSTRALIA 29.4282° S 115.0073° E

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Capture6 is a Public Benefit Corporation Offices: San Francisco Bay Area, California, USA and New Zealand. © Capture6 2025. All rights reserved

Capture6 is a Public Benefit Corporation
Offices: San Francisco Bay Area, California, USA and New Zealand.
© Capture6 2025. All rights reserved