Carbon Capture & Commercialization Pioneers $339 Billion Circular Economy with Sub-$100/Ton COâ‚‚ Technology

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Carbon Capture & Commercialization (CC&C)

Oct 22, 2024, 08:17 ET


Global energy demand is surging, and carbon recycling offers a crucial solution for balancing sustainability with industrial efficiency. Carbon Capture and Commercialization is pioneering a Direct Air Carbon Capture (DACC) technology using innovative adsorbers that reduce COâ‚‚ emissions at less than $100 per ton while supporting the circular economy.

TAMPA, Fla., Oct. 22, 2024 /PRNewswire-PRWeb/ -- Global energy consumption has surged by more than 500 gigatons over the past five years, accounting for 28% of all material use since 1900. (1) With the global population projected to rise by nearly 2 billion by 2050, this demand will only intensify. (2) "Balancing resource availability with growing demand is becoming increasingly urgent. That's where our contribution to the Circular Economy comes in," explains Samir Adams, Managing Director of Technology for . "Our innovative Direct Air Carbon Capture (DACC) adsorber captures COâ‚‚ at less than $100 per ton, making it economically viable for most industries."

As the circular economy market is projected to reach $339 billion by 2026, CC&C is at the forefront of this revolution with its groundbreaking CO₂ capture technology. (3) "Turning carbon dioxide—a byproduct of industrial processes—into usable materials isn't just a sustainable practice; it's essential for maintaining industrial efficiency in an energy-dependent world," highlights Adams.
"Yet geological requirements made scaling traditional carbon capture methods impractical for more companies", points out Adams. "That's why we got into this. Because spending hundreds of millions to capture 30,000 tons didn't make sense. Our sub-$100 per ton capture cost is a game-changer for the industry."

Rising Energy Demand and the Consequences of the Current Model
Current estimates reveal that the world's energy consumption has increased by over 20% in the last decade alone, placing additional strain on existing resources. (4) This surge has exacerbated pollution levels, leading to issues such as ocean acidification and declining air quality, both of which pose serious public health risks.
As greenhouse gases continue to rise, it's clear that reducing emissions alone won't be enough. We need to actively remove CO2 from the air. Turning to a circular economy can change how we produce and consume, addressing issues ranging from greenhouse gas emissions to plastics, resource scarcity, waste management, and use of hazardous chemicals, and increasing resilience.

Carbon Capture: What It Is and How It Fuels the Circular Economy
Carbon capture, or CCS, involves capturing COâ‚‚ emissions from power plants, industrial sources, or directly from the air. Captured COâ‚‚ can be permanently stored in geological formations or repurposed for industrial use.

Some of its most relevant applications include:

  • Reusing COâ‚‚ in Industrial Processes: Captured COâ‚‚ can be used for Enhanced Oil Recovery (EOR), increasing crude oil extraction while storing COâ‚‚ underground. It's also used to produce chemicals like methanol and synthetic fuels, reducing reliance on fossil fuels, and in concrete production, improving strength and reducing emissions.
  • Reducing Industry's Carbon Footprint: COâ‚‚ can be used to create low-carbon products like synthetic fuels, carbonated beverages, and polymers. Additionally, COâ‚‚ can be integrated into building materials such as concrete, where it reacts with minerals to form solid compounds, improving material durability and reducing emissions in the construction industry.
  • Offsetting Emissions in the Supply Chain: In sectors like agriculture, steel, and cement, captured COâ‚‚ can be used to produce fertilizers, improving crop yields and offsetting emissions. (5)

By turning COâ‚‚ waste into a resource, carbon capture helps create a closed-loop system where carbon is continuously reused, aligning with circular economy principles. As captured COâ‚‚ is applied in different industries, it generates new revenue streams and financial incentives, fostering the growth of carbon markets.

The Challenge of Scaling Carbon Recycling
Despite its economic and environmental advantages, carbon recycling has not yet been widely adopted in the industrial sector. "Traditional capture methods are costly and inefficient for large-scale use, which is why we engineered a new adsorber using graphene-coated spheres to reduce unit size and energy needs," explains Adams.

innovation is a Direct Air Carbon Capture (DACC) adsorber that only requires airflow to capture COâ‚‚. The captured COâ‚‚ can be released on demand with minimal power, eliminating the need for additional adsorbers. With a sub-$100 per ton capture cost, this solution is designed to be mass-producible, allowing for rapid deployment in spaces ranging from a square meter to the size of a shipping container.
"By integrating off-the-shelf components like fans and AI, we've created a scalable, cost-effective solution. While still in the early stages, we aim to mass-produce these units to address the COâ‚‚ challenge more effectively," Adams adds.

A Call to Action for a Sustainable Future
As Adams concludes, "Addressing resource scarcity and waste is no longer optional; it's a requirement for progress. By adopting practices that prioritize recycling and reuse, we're taking critical steps to secure a sustainable future."

About Carbon Capture & Commercialization:
The world is involved in solving the invisible problem of carbon dioxide emissions which are responsible for climate disruption, ocean acidification and public health issues from air quality across the globe. By reducing, reusing and recycling CO2, Carbon Capture and Commercialization is creating a sustainable and scalable solution for urban environments. Founded in 2019, Sam (Samir) Adams and Fernando Sanchez combined their technology expertise in the Direct Air Carbon Capture industry to provide transparency and innovation that are turning a major global environmental problem into a commercial opportunity for urban environments. The company, based in Tampa, FL utilizes their patent pending approach to combine cutting-edge materials science with practical engineering solutions. For more information visit

References

  1. "The Circularity Gap Report 2024"; Accessed 7 October 2024; Circle Economy Foundation; circularity-gap.world/2024.
  2. United Nations. "Global Issues: Population." United Nations, United Nations, 2024, un.org/en/global-issues/population.
  3. "Estimated revenue generated from circular economy transactions in 2022 and 2026 worldwide"; Accessed 7 October 2024; Statista; statista.com/statistics/1337519/circular-economy-market-revenue
  4. "World Energy Needs and Nuclear Power"; Accessed 7 October 2024; World Nuclear Association; world-nuclear.org/information-library/current-and-future-generation/world-energy-needs-and-nuclear-power.
  5. Direct Air Capture - Energy System - IEA. "Direct Air Capture - Energy System - IEA." IEA, 2024, .

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SOURCE Carbon Capture & Commercialization (CC&C)