Direct Air Capture
Storage Projects

Olea

RepAir partnered with EnEarth, the carbon storage subsidiary of Energean, to capture CO2 and store it in the Prinos saline aquifer in Kavala, Greece. This partnership will repurpose Energean's infrastructure by installing RepAir's carbon capture system at the onshore Energean facility.

Energean’s Prinos storage project has received €150M in funding from the Greek government and is officially included in the sixth Union list of European Projects of Common Interest. This decarbonization project is an integral part of the Mediterranean Carbon Capture and Storage (CSS) Strategic Plan developed by France, Italy, and Greece, which aims to create the first commercial-scale CO2 storage hub in the Southeast Mediterranean.

The project will create new green jobs for former O&G workers, leveraging their skills for sustainable purposes and bringing economic benefits to the community, transforming the Eastern Mediterranean into a new green hub.

Complying with EU CRCF Regulation, the Prinos Direct Air Capture and Storage project will offer high-quality carbon credits, supporting EU CO2 reduction efforts and aligning with evolving ESG standards. With its capacity to store millions of tons of CO2, this project is set to drive significant growth in carbon dioxide removals in the EU.

Project Overview

REMOVAL CAPACITY

Phase 1: 1000 tpa

Phase 2: 30000 tpa

Phase 3: 100000 tpa

LOCATION

Kavala, Greece

TIMELINE

Operational 2026

Oak

RepAir Carbon US Inc. has partnered with C-Questra to launch the EU’s first DACS value chain on French soil that enables co-location of capture and storage facilities reducing midstream infrastructure needs. The project is in Grandpuits, near Paris, where C-Questra has applied for a permit to develop an onshore CO2 storage site.

The collaboration also includes a commitment to explore local manufacturing opportunities in the Île-de-France region, thus creating new green jobs, and developing similar DACS projects in other EU countries.

The project aligns with France’s recently published CCS strategy, which outlines ambitious goals for the amount of CO2 that needs to be captured and stored in France by 2030. It is well-positioned to capitalise on European funding opportunities, including the Innovation Fund, where no Direct Air Capture project has yet been funded.

By 2030, the goal is to remove 100,000 tons of CO2 per year from the atmosphere, scaling up megatons by 2035.

Project Overview

REMOVAL CAPACITY

Phase 1: 30,000 tpa

Phase 2: 100,000 tpa

LOCATION

Grandpuits, France

TIMELINE

Acacia

RepAir and Cella’s partnership offers a comprehensive solution for CO2 capture from the atmosphere and permanently storing it underground through Cella’s in-situ mineralization storage technology. Cella's proprietary, highly verifiable mineralization storage technology transforms CO2 into rock underground, ensuring safe and permanent carbon removal cost-effectively, with minimal environmental impact.

The Direct Air Capture Unit and CO2 storage facility will be adjacently located to Cella’s initial demonstration project in the Kenyan Rift Valley, and the project, co-located with geothermal energy production, is set to operate solely on renewable energy sources.

The government of Kenya has set out a range of strategies and plans aimed at achieving universal energy access and 100% renewable power by 2030.  Kenya's abundant renewable resources make it an ideal location for powering low-energy-consuming DAC systems, like RepAir’s.

Project Overview

REMOVAL CAPACITY

Phase 1: 1000 tpa

Phase 2: 20000 tpa in 2028

Phase 3: 50,000 tpa in 2030

LOCATION

Kenyan Rift Valley

TIMELINE