How Does the Process Work?
It is primarily based on accelerating the ocean's natural ability to absorb and store carbon. It involves combining seawater with renewable electricity. During this process, hydrogen is produced and carbon dioxide is captured. The CO₂ is not only extracted from the atmosphere but also converted into safe and durable forms, remaining stably stored in the oceans to achieve permanent removal.
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How Does This Technology Work?
The process uses a component called an electrolyzer to apply an electric current to seawater. This device splits water molecules and triggers a chemical reaction that captures carbon dioxide (CO₂) dissolved in the water. The CO₂ is converted into mineral solids that safely remain in the ocean. At the same time, hydrogen is generated as a byproduct, which is stored and can be used as a clean energy source. The entire process is powered by renewable electricity, making it sustainable.
In this way, it can at least reduce current emissions and help decarbonize hard-to-electrify industries like aviation.
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Why Is Ocean Carbon Removal Important?
The ocean is the largest natural carbon sink, but with excess carbon dioxide in the atmosphere, its ability to absorb carbon is decreasing.
Removing carbon in the ocean will be one of the key strategies in the global fight against warming and the preservation of marine life.
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What Are the Applications of Carbon-Negative Hydrogen?
Carbon-negative hydrogen is a clean fuel that emits no pollution and also plays a role in traditional carbon removal processes. This is how hydrogen finds its relevance in the broader energy sector, especially in air transport, where electrification is advancing but more complex. In this way, industries move toward full decarbonization without relying on conventional fossil fuels.
How Is the Effectiveness of This Process Verified?
The carbon removal process is measurable and permanently eliminates CO₂. The company operates with independent third parties involved in auditing, adding an additional level of transparency and trust for stakeholders regarding the reliability and sustainability of the technology.
The integration of advanced measurement-focused technologies is making a difference in how climate change is addressed through a measurable approach.
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Current Application of the Technology and Its Benefits
This technology can be applied today in industrial sectors that need to decarbonize their processes, such as aviation and maritime transport, where fossil fuel use is prevalent. Thanks to the production of carbon-negative hydrogen, clean fuels can replace traditional ones, significantly reducing emissions.
Key Benefits:
· Long-term carbon removal: Permanently captures and stores CO₂ in the ocean.
· Clean energy production: Generates hydrogen as a sustainable byproduct.
· Industrial decarbonization: Supports the energy transition in hard-to-electrify sectors.
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By applying this technology, industries can move toward carbon neutrality, making a meaningful contribution to combating climate change. Additionally, the process is measurable and verifiable, building trust and transparency.