Patent Number: 
Section: claims

1. A method of growing agricultural products with a reduced abundance of carbon-14 comprising:a. providing a mixture of atmospheric gases with a measurable abundance of carbon dioxide and a measurable abundance of carbon dioxide with carbon-14;b. removing, in a vortex chamber, carbon-dioxide with carbon-14 from said mixture of atmospheric gases;c. a forcing, via a blower, said mixture of atmospheric gases through said vortex chamber to produce filtered atmospheric gases consisting of low density molecular gases;d. venting, via an input control valve, airflow of said filtered atmospheric gases from said vortex chamber into a controlled environment having an airtight seal; ande. outputting, via an output control valve, gasses from said controlled environment; further comprising verifying carbon-dioxide removal in said vortex chamber prior to venting, via the input control valve, airflow of said filtered atmospheric gases from said vortex chamber into said controlled environment; wherein verifying carbon-dioxide removal in said vortex chamber prior to venting, via the input control valve, airflow of said filtered atmospheric gases from said vortex chamber into said controlled environment includes: a. detecting, via a first carbon-dioxide sensor, carbon-dioxide abundance outside said controlled environment; b. detecting, via a second carbon-dioxide sensor, carbon-dioxide abundance in a relief output of said vortex chamber; d. comparing, via a control system, the detected carbon-dioxide abundance outside said controlled environment and the detected carbon-dioxide abundance in the relief output; and e. opening, via the control system, the input control valve when the detected carbon-dioxide abundance outside said controlled environment and the detected carbon-dioxide abundance in the relief output is at or above a predetermined delta. 2. The method according to claim 1, further comprising regulating carbon-dioxide abundance in said controlled environment. 3. The method according to claim 2, wherein regulating carbon-dioxide abundance in said controlled environment includes:a. detecting, via a carbon-dioxide sensor, carbon-dioxide abundance in said controlled environment; andb. controlling, via a control system, at least one of the input control valve, the output control valve, or the blower based on the detected carbon-dioxide abundance to maintain a predetermined carbon-dioxide abundance in said controlled environment. 4. The method according to claim 1, further comprising maintaining a predetermined positive pressure into said controlled environment when said output control valve is opened or closed. 5. The method according to claim 4, wherein maintaining a predetermined positive pressure into said controlled environment when said output control valve is opened or closed includes:a. detecting, via an internal air pressure sensor, internal air pressure in said controlled environment;b. detecting, via an external air pressure sensor, external air pressure of atmospheric gases outside said controlled environment; andc. operating, via a control system, the input and output control valves to maintain the predetermined positive pressure into said controlled environment based on the detected internal and external air pressures. 6. The method according to claim 1, wherein verifying carbon-dioxide removal in said vortex chamber prior to venting, via the input control valve, airflow of said filtered atmospheric gases from said vortex chamber into said controlled environment additionally includes:a. detecting, via a third carbon-dioxide sensor, carbon-dioxide abundance in said controlled environment; andb. opening, via the control system, a relief output control valve to provide the relief output from the vortex chamber when the detected carbon-dioxide abundance in said controlled environment is below a predetermined amount. 7. The method according to claim 6, wherein verifying carbon-dioxide removal in said vortex chamber prior to venting, via the input control valve, airflow of said filtered atmospheric gases from said vortex chamber into said controlled environment further includes closing, via the control system, the relief output control valve when the detected carbon-dioxide abundance outside said controlled environment and the detected carbon-dioxide abundance in the relief output is below a predetermined delta.