meet the future
Our Life's Work
The Big What If?
What if we could implement hydrogen extraction from seawater on a global scale, and completely eliminate the need for fossil fuels and fresh water consumption for energy production?
What if we could use processes that already exist to produce;
Hydrogen Fuel
Currently, the cost and efficiency of production are the biggest inhibitors
Rare-Earth Metals
Such as Lithium
Clean Water
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0 Waste
That's right. ZERO.
A Solution to Clean Water
Seawater sequestration using a desalination plant is a process that produces clean water by removing salt and other impurities from seawater through a combination of physical and chemical processes, such as reverse osmosis and distillation. In the reverse osmosis process, seawater is forced through a semipermeable membrane that only allows water molecules to pass through, while blocking salt and other impurities. In the distillation process, seawater is boiled to produce steam, which is then collected and condensed back into liquid form to produce clean water. The resulting clean water is collected and can be used for various applications, such as drinking water, irrigation, and industrial processes.
A Sustainable Solution for the Production of Hydrogen for Fuel
Seawater sequestration using a desalination plant can also produce hydrogen fuel in a sustainable way by utilizing the brine left over from the desalination process. The highly concentrated brine is processed and treated to remove impurities and increase its salinity, and then passed through an electrolyzer cell where an electric current is passed through it. This causes the water molecules in the brine to split into their constituent elements of hydrogen and oxygen, with the hydrogen gas being collected for use as a clean fuel. This process provides a sustainable source of hydrogen fuel, while also reducing the environmental impact of discharging the brine back into the ocean.
A New Dawn for Rare-Earth Metal Production
Seawater sequestration using a desalination plant can also produce rare-earth metals in a sustainable, environmentally friendly way by utilizing the brine left over from the desalination process. The brine is treated to remove impurities and then passed through a series of specialized membranes that are designed to selectively capture rare-earth metals. The captured metals can then be further processed and purified for use in a wide range of high-tech applications, including electronics, magnets, and batteries. This process provides a sustainable source of rare-earth metals, while also reducing the environmental impact of discharging the brine back into the ocean.
Zero Waste. ZERO
Seawater sequestration using a desalination plant can produce zero waste by utilizing the by-products generated during the process. The clean water produced by the desalination plant can be used for various applications, such as drinking water, irrigation, and industrial processes, while the remaining brine is treated and processed to extract valuable minerals and metals such as rare-earth metals and hydrogen gas. This makes the process a sustainable solution for meeting the growing demand for clean water and valuable resources, while also reducing waste and the environmental impact of discharging brine back into the ocean. Overall, the process of seawater sequestration using a desalination plant is a promising approach to achieving a more sustainable and efficient water management system.