Traditional carbon capture strategies call to sequester the excess into rock deep underground. Why build thermal mass underground when people need homes, jobs, a future now?

In collaboration with the Kepler Recapture team we are proud to advance the frontlines of sciences, and train the next generation how convert a carbon problem into cash profits while cooling the Earth and helping all people rise together.

Kepler ReCapture Inc. is driven by a bold mission:

To restore the Earth’s carbon cycle to pre-industrial levels.

Our team comprises over 20professionals from diverse disciplines including biochemistry, oceanography, naval architecture, information technology, business development, and finance. Our innovative approach to carbon removal centers around an ocean based, autonomous platform. This cutting-edge technology extracts excess CO2 from both the air and oceans, transforming it into valuable, long-lasting products such as building materials such as sea walls and high-value carbon fiber products like graphene. By doing so, we not only contribute to the carbon removal objective but also address multiple global environmental concerns, offering clean carbon products, desalinated water, and brine products.

At Kepler, we understand that carbon removal is an energy-intensive
process. Consequently, our solution ensures emissions-free production of
marine energy necessary for seawater processing, while generating surplus energy that can serve as an additional revenue source. This demonstrates our commitment to sustainability and profitability.

The designs are modular and scalable. With multiple global installation and operational targets, Kepler ReCapture Inc. is poised to achieve the critical gigaton-scale target set by the Intergovernmental Panel on Climate Change (IPCC) by 2035. By harmonizing the forces of humanity and nature, we position ourselves as pioneers in multi-trillion dollar emissions free product markets.

Leveraging our expertise in the aerospace industry, we have revolutionized the carbon removal landscape. Our team has developed a physics-based method that harnesses the power of the ocean’s natural carbon cycle.

Furthermore, harnessing the high energy density of the marine environment was essential to meet the
power requirements of our carbon removal operations. The ocean presents us with a unique combination of factors, including
thermal differentials, immense pressures at varying depths, and constant motion. By tapping into these inherent characteristics, we can effectively generate the energy needed to drive our carbon removal processes.

With copious amounts of energy, the only feedstock is seawater, no filters or catalyst scalability up to gigatons per year is achievable. To put this in perspective, if the Great Pyramid of Giza were solid limestone, it would weigh 7GT (1GT of elemental carbon and just over half is CO2). The
utilization of these abundant resources ensures that we have a
sustainable and reliable power source to meet the demands of carbon removal at scale. By deploying our cutting-edge
technology on offshore marine floating platforms which are also specially engineered to leverage both physical and biological solutions, a multifaceted approach to carbon removal can be implemented.

What truly differentiates us is our innovative perspective on carbon utilization, which has proven to be1000 times more financially advantageous than solely relying on carbon credits. With our scalable and replicable offshore marine platform designs, we possess the capability to address the global carbon problem on an unprecedented scale.

Together, we can make a significant impact on the global carbon cycle and usher in a more sustainable future.

Kepler ReCapture Inc.

media@keplerrecapture.com

LinkedIn:https://www.linkedin.com/company/kepler-recapture

Website: https://keplerrecapture.com

Debi-Lee Wilkinson, CEO
dwilkinson@keplerrecapure.com
Cell: (760) 264-5753