Patent Number: 
Section: claims

1. An apparatus to remove carbon-dioxide with carbon-14 from atmospheric gases comprising:a. a mixture of atmospheric gases with a measurable abundance of carbon dioxide and a measurable abundance of carbon dioxide with carbon-14;b. a blower to accelerate said atmospheric gases to a predetermined velocity;c. a wide vortex chamber for the centrifugal separation of said atmospheric gases;d. an upper narrow vortex chamber for the centrifugal separation of said atmospheric gases;e. a lower narrow vortex chamber for the centrifugal separation of said atmospheric gases;f. an upper lateral adapter connected to said wide vortex chamber and connected to said upper narrow vortex chamber;g. a lower lateral adapter connected to said wide vortex chamber and connected to said lower narrow vortex chamber;h. an airflow adapter connected to said blower and connected to said wide vortex chamber, the airflow adapter comprising a blower input connector, a tangential airflow adapter, and a tangential airflow stabilizer, wherein the tangential airflow stabilizer further comprises inner reinforcements evenly spaced vertically and centered around the blower input connector, and wherein the interior cross-section of the airflow stream of the tangential airflow stabilizer is tapered or shaped at the top and bottom of the interior cross-section, excluding two wedge-shaped cross-sections from the tangential airflow;i. a cone having a tip and a foundation to shape airflow of said atmospheric gases during centrifugal separation inside said lower narrow vortex chamber, the foundation has axial alignment extrusions aligned with the central axis of the cone;j. a base having a top and bottom, the base being connected to said cone, the bottom of the base being perpendicular to the central axis of the lower narrow vortex chamber, the base has vertical vent fins symmetrically distributed around its central axis, connecting from the bottom of the base to the lower narrow vortex chamber, and the cone foundation has a diameter less than the diameter of the base to allow the cone foundation to be subsumed by the base, the bottom of the base has structural reinforcements to hold the cone foundation in alignment with the central axis of the lower narrow vortex chamber, the structural reinforcements including a central reinforcement, circular reinforcements, and symmetrically distributed radial reinforcements;k. a vent connected to said upper narrow vortex chamber to allow output of low-density gases from said atmospheric gases after centrifugal separation. 2. The apparatus of claim 1, wherein the upper and lower narrow vortex chambers have an interior radius and combined height, where the height of the upper narrow vortex chamber is less than or equal to half the lower narrow vortex chamber. 3. The apparatus of claim 1, wherein the radial to tangential airflow adapter changes the radial airflow at the blower input connector to a vertical stream at the tangential airflow stabilizer. 4. The apparatus of claim 1, wherein the position of the cone can be adjusted while remaining in alignment with the lower narrow vortex chamber. 5. The apparatus of claim 1, wherein the tangential airflow stabilizer further comprises outer reinforcements evenly spaced vertically and centered around the blower input connector. 6. An apparatus to remove carbon-dioxide with carbon-14 from atmospheric gases comprising:a. a mixture of atmospheric gases with a measurable abundance of carbon dioxide and a measurable abundance of carbon dioxide with carbon-14;b. a blower to accelerate said atmospheric gases to a predetermined velocity;c. a wide vortex chamber for the centrifugal separation of said atmospheric gases;d. a lower narrow vortex chamber for the centrifugal separation of said atmospheric gases;e. a lateral adapter connected to said wide vortex chamber and connected to said lower narrow vortex chamber;f. an airflow adapter connected to said blower and connected to said wide vortex chamber, the airflow adapter comprising a blower input connector, a radial to tangential airflow adapter, and a tangential airflow stabilizer, wherein the tangential airflow stabilizer further comprises inner reinforcements evenly spaced vertically and centered around the blower input connector, and wherein the interior cross-section of the airflow stream of the tangential airflow stabilizer is tapered or shaped at bottom of the interior cross-section, excluding a wedge-shaped cross-section from the tangential airflow;g. a cone of having a tip and a foundation to shape airflow of said atmospheric gases during centrifugal separation inside said lower narrow vortex chamber, the foundation has axial alignment extrusions aligned with the central axis of the cone;h. a base having a top and bottom, the base being connected to said cone, the bottom of the base being perpendicular to the central axis of the lower narrow vortex chamber, the base has vertical vent fins symmetrically distributed around its central axis, connecting from the bottom of the base to the lower narrow vortex chamber, and the cone foundation has a diameter less than the diameter of the base to allow the cone foundation to be subsumed by the base, the bottom of the base has structural reinforcements to hold the cone foundation in alignment with the central axis of the lower narrow vortex chamber, the structural reinforcements including a central reinforcement, circular reinforcements, and symmetrically distributed radial reinforcements; andi. a vent connected to said wide vortex chamber to allow output of low-density gases from said atmospheric gases after centrifugal separation. 7. The apparatus of claim 6, wherein the radial to tangential airflow adapter changes the radial airflow at the blower input connector to a vertical stream at the tangential airflow stabilizer. 8. The apparatus of claim 6, wherein the position of the cone can be adjusted while remaining in alignment with the lower narrow vortex chamber. 9. The apparatus of claim 6, wherein the tangential airflow stabilizer further comprises outer reinforcements evenly spaced vertically and centered around the blower input connector.