Today's CCS and Molecule Splitting Problems
Less Energy Means Molecules Split Wrong Way
Molecules split in a way that they lose the least energy, meaning CO2 will break into one oxygen atom and a carbon monoxide molecule (CO). Since Carbon is double bonded to the Oxygen atoms, it would require much less energy to break one oxygen atom bond instead of two. Also, CO (Carbon Monoxide) is more stable than regular Carbon, making that another reason CO2 will split up this way. Which is not what we want, as humans cannot breathe one part Oxygen or Carbon Monoxide.
Impractical CCS Materials
Today, the solvents, sorbents, and membranes used in the separation of CO2 gas from air are slow deploying, and are not very effective, and only separates about 80% of what CO2 it receives.
Molecules split in a way that they lose the least energy, meaning CO2 will break into one oxygen atom and a carbon monoxide molecule (CO). Since Carbon is double bonded to the Oxygen atoms, it would require much less energy to break one oxygen atom bond instead of two. Also, CO (Carbon Monoxide) is more stable than regular Carbon, making that another reason CO2 will split up this way. Which is not what we want, as humans cannot breathe one part Oxygen or Carbon Monoxide.
Impractical CCS Materials
Today, the solvents, sorbents, and membranes used in the separation of CO2 gas from air are slow deploying, and are not very effective, and only separates about 80% of what CO2 it receives.
High Costs
A large amount of energy is needed to separate molecules, deeming it expensive and costly.
A large amount of energy is needed to separate molecules, deeming it expensive and costly.
CCC Technologies' Solution
High Energy But Low Cost Means Molecules Split Correct Way
By using a process called nuclear fusion, we are able to generate large amounts of energy, for a relatively low cost. In order to avoid molecules splitting int the way we don't want them to, we giving the CO2 molecule more energy, making the molecule start to “roam”, which is a chemical phenomenon where chemical bonds break up in different ways. By doing this, CO2 will be separated into Carbon and 2 parts Oxygen, which is what we want.
Enhanced CCS Materials
In our CCC Machine, a liquid hydroxide solution reacts with the air that has been captured, forming carbonate material (Carbonate pellets). These carbonate pellets are processed in a locked vessel, turning them into pure Carbon Dioxide and water vapour. This method replaces traditional use of sorbents, solvents, and membranes.
By using a process called nuclear fusion, we are able to generate large amounts of energy, for a relatively low cost. In order to avoid molecules splitting int the way we don't want them to, we giving the CO2 molecule more energy, making the molecule start to “roam”, which is a chemical phenomenon where chemical bonds break up in different ways. By doing this, CO2 will be separated into Carbon and 2 parts Oxygen, which is what we want.
Enhanced CCS Materials
In our CCC Machine, a liquid hydroxide solution reacts with the air that has been captured, forming carbonate material (Carbonate pellets). These carbonate pellets are processed in a locked vessel, turning them into pure Carbon Dioxide and water vapour. This method replaces traditional use of sorbents, solvents, and membranes.
Low Costs
By harnessing the power of Magnetized Target Nuclear Fusion, we were able to generate a large amount of energy for a very low cost, and used this energy for the molecule splitting process.
By harnessing the power of Magnetized Target Nuclear Fusion, we were able to generate a large amount of energy for a very low cost, and used this energy for the molecule splitting process.