Carbon Capture on a new level

Solutions that Drive Change.

Innovating Carbon Capture

Pulling CO2 out of fluid streams via Electrochemical Swing Adsorption.

CAD Image of the CCT Carbon Capture Technolgoy

We are creating a pioneering method for efficient carbon capture, targeting CO2 removal from carbon dioxide-rich fluid streams through our cutting-edge approach based on electrochemical swing adsorption. The modular system is space-saving and scalable.

Selectively Grabbing Molecules

Our specially engineered materials enable efficient and selective adsorption of CO2 molecules.

Adsorption Process

Using electrochemical processes, our technology selectively adsorbs CO2 onto specially designed electrodes within our module. To release the captured CO2, the module is efficiently deactivated, offering a sustainable and effective reversal process.

Releasing Them on Demand

To complete the capture cycle, the cO2 molecules can easily be released for further processing.

Desorption Process

By harnessing our technology, we facilitate sustainable decarbonization and contribute to the circular economy by generating pure CO2. This captured CO2 finds versatile applications, all achieved without relying on energy-intensive desorption methods or environmentally harmful chemicals.

What we do?

We are tackling one of the biggest challenges of our time heads-on.

We at Circular Carbon Technologies (CCT) are developing a novel approach to capturing carbon. We are dedicated to propelling carbon capturing technology forward, offering a solution that enables sustainable economic growth, mitigates climate change, and fosters a profitable circular economy.

Similar to the vital role played by trees, we selectively grab CO2 molecules and separate them from other exhaust gases.

Smoke coming from industrial chimneys

How we do it?

We use the magic of electricity.

Our innovative technology operates on electricity, which can be sourced from up to 100% renewable energy. Through our specially designed electrodes, we have the ability to manipulate active components, allowing us to attach or release carbon from their surfaces.

This captured carbon opens up a world of possibilities - it can be utilized to create essential products such as base chemicals, minerals, detergents, fuels, or even carbonic acid for beverages. Furthermore, the carbon can permanently be removed by safely storing it in subsurface reservoirs.

Questions?
We have answers.

01

What is Carbon Capture, Storage, and Utilization (CCUS)?

Carbon Capture, Storage, and Utilization (CCUS) is a process crucial for addressing climate change. It involves capturing carbon dioxide emissions from industries, transporting them to storage sites, and either storing them underground or repurposing them in industrial applications, significantly reducing greenhouse gas emissions.

02

Why do we need CCUS?

CCUS is essential for combating climate change by curbing carbon dioxide emissions, a major contributor to global warming. Industries can enhance sustainability, meet emission reduction targets, and transition to a greener future through CCUS technologies.

03

What is a carbon cycle?

The carbon cycle describes nature's carbon exchange among the atmosphere, oceans, soil, and living beings. It involves the movement of carbon in various forms across Earth's reservoirs, crucial for understanding the impact of human activities on environmental carbon levels.

04

What do we understand by the carbon lock-in effect?

The carbon lock-in effect occurs when societies or industries become reliant on high-carbon technologies, hindering the transition to sustainable alternatives. Cleaner technologies like CCUS are crucial to combat carbon emissions and mitigate climate change effectively.

05

Which industries employ CCUS?

Sectors such as power generation, cement production, steel manufacturing, and oil and gas extraction utilize CCUS technologies to reduce their carbon footprint. CCUS helps industries capture and manage carbon emissions efficiently, ensuring compliance with regulations and environmental goals.

06

How does CCUS contribute to climate change mitigation?

CCUS plays a vital role in climate change mitigation by capturing carbon dioxide emissions that would otherwise pollute the atmosphere. By storing or repurposing captured CO2, CCUS aids in reducing greenhouse gas concentrations, mitigating global warming and its environmental impacts.

07

What makes Circular Carbon Technologies (CCT) special?

At CCT, we offer innovative CCUS solutions. By integrating cutting-edge technology with a commitment to sustainability, we develop tailored strategies for carbon capture, storage, and utilization. Our expertise, environmental dedication, and focus on positive change set us apart in the field of carbon management.

08

What happens to the carbon dioxide after it has been captured?

After capture through CCUS technologies, carbon dioxide can be stored underground in geological formations or utilized in processes such as enhanced oil recovery, synthetic fuel production, or manufacturing chemicals and materials. This offers an economically viable and eco-friendly approach to managing carbon emissions.