U.S. Pat. No. 3,659,400; Filing date Jul. 21, 1970; Related use of Polyethyleneimine as CO2 adsorption and desorption agent
U.S. Pat. No. 4,046,529 Filing date May 21, 1976; Related use of Amberlite XAD7 beads coated with Polyethyleneimine as CO2 adsorption and desorption agent
U.S. Pat. No. 6,703,785 Filing date Jun. 19, 2002; Related use of piezoelectric transformer in avoidance of electromagnetic discharge during negative ion generation
1. Field of the Invention
2. Prior Art
The invention has an object of capturing and sequestering significant amounts of carbon dioxide molecules from an incoming air stream by directing flow into an airborne cylindrical carbon composite canister or ATCOM canister [approx 20 ft long and 5 ft in diameter] which has the capacity to capture, sequester, and then release the species with negative ionization within a desired High Frequency electromagnetic wave field transmitted within the auroral oval, and which resonates at the ion's gyro frequency.
The initial airflow into the ATCOM canister will be slowed to a specific flow velocity as the air stream travels through a volute chamber with resistance added impellers, and then into a free flow chamber where the incoming flow velocity compresses the air volume allowing for an osmotic equality distribution of the concentration of CO2 molecules.
Eventually, the pressure of the incoming air stream will direct the flow through a polyetheyleimine granule matrix [PGM], containing 20 wire mesh chambers [30-40 mesh U.S. Sieve Series] with XAD-7 coated polyetheyleimine beads.
Once a desired metric is captured, as indicated by the digital weight scale measuring the increased mass of the imine granules, a human user can initiate the release of the CO2 molecules through induction of a vacuum state within the sealed PGM chamber, and transfer the species to an ionization chamber where five electron emission spikes, consisting of stylus electric discharge electrodes with correspondent negative high voltage application, create an electron field which allow the attachment of an electron to the outer molecular shell of the species, effecting negative ionization.
The created electron field coupled with incoming air pressure within the Negative Ionization Chamber, expels the CO2-ions through the outflow duct, where the fair weather electric field and atmospheric convection cause the species to rise upward.
As the expulsion is coordinated to occur within the angular vector of a ground based transmitter's high frequency [HF] electromagnetic wave field resonating at the CO2-ion's gyro frequency, once the species reaches above 120 Km into the ionosphere, the transmission energy will accelerate the ions into space, from where they will not return to our atmosphere.
4.4 shows the volute chamber with resistance added impellers to slow incoming airflow to a flow velocity of no more than 556.16 Ft3/sec. [Flow velocity set by impellers=8 MPH=approx 704 Ft/Min; Airflow output duct radius=0.5 ft; Duct Cross Section=π*radius of output duct squared=3.1415*[0.5 ft]2=approx 0.79 square feet; Cubic Feet per Minute [CFM]=704 ft/ min*0.79 ft2=556.16 ft3/Min]
4.5 depicts a “Free Flow Air Chamber” which effects a brief spiral circulation of the incoming air flow, until the chamber volume is filled with air. This manifests an effective osmotic distribution of the air content, namely the 0.038% of the ambient air stream consisting of carbon dioxide, and additional air inflow will force the stream into the Polyethyleneimine Granule Matrix in 4.10.
4.10 shows the Polyethyleneimine Granule Matrix [PGM], which consists of twenty separate rectangular wire mesh chambers [30-40 mesh U.S. Sieve Series], containing granules made of an inert substrate [Amberlite XAD7 marketed by Rohm and Haas Company] coated with an active agent [Polyethyleneimine]. Polyethyleneimine is known in the prior art as a sorption agent of carbon dioxide at standard temperature and pressure, and to desorb within a vacuum state.
4.25 depicts the “Pure Air Chamber” which contains the volume of space that the purified air will flow into once it has traveled through each of the twenty chambers within the PGM. The air flowing into this chamber is virtually free of carbon dioxide.
4.19 shows a one way flow tube, through which purified air exiting the Pure Air Chamber 4.25 enters into, and flows through exiting the Outflow Duct depicted in 4.23 as a CO2 free airstream 4.24.
4.11 represents a digital weight scale with programmable logic processor 4.8. As the airflow travels into the PGM 4.10 through entrance 4.9, carbon dioxide molecules are captured and sequestered, causing a subsequent increase in the mass of the imine granules. Once the imine granules increase in weight by 215 kg [approx 474 Lbs], this will cause an ICMP data packet to be sent to the logic processor in 4.8, which is programmed to close the two chamber doors depicted 4.6 and 4.12 upon receipt of the data packet.
The two sliding chamber doors [4.6 at the entrance of the PGM; 4.12 at the exit of the Pure Air Chamber] are mechanically activated by generators 4.7 and 4.13 which form an airtight seal on both sides.
4.16 depicts a vacuum pump, which is connected to air flow mounts 4.14 and 4.18 [above “Pure Air Chamber” 4.25 and “Negative Ionization Chamber” 4.26 respectively] via flow tubes 4.15 and 4.17. The vacuum pump is manually activated based on the input of a human user. This creates a partial vacuum state within the PGM 4.10 and Pure Air Chamber 4.25, which effects the release of the CO2 molecules from the PGM, and transfers them into the Negative Ionization Chamber depicted in 4.26.
4.30 shows the five Electron Emission Spikes within the Negative Ionization Chamber 4.26 which consist of five stylus electric discharge electrodes which are impressed with a high negative voltage, thus creating an electron field which effects the negative ionization of incoming CO2 molecules passing through the field. This process is initiated only by a human user who has given input to engage the vacuum pump depicted in 4.16. A piezoelectric transformer 4.22 is used as opposed to coil wrapped around an iron core to prevent electromagnetic wave discharge, which can counteract the negative ionization process, and even positively ionize the species.
4.21 represents flow ducts to a free airflow corridor directly beneath the ducts which lead into the Air Outflow Duct 4.23.
As the CO2 molecules become negatively ionized, they will become repelled downward in large part by the substantial electron field created by the Electron Emission Spikes 4.21, as well as forced through flow ducts 4.12 by incoming air pressure emanating from air flow mount 4.18.
After logic processor 4.8 indicates that the weight of PGM 4.10 [ as measured by digital weight scale 4.11] has returned to a molar mass free of CO2, it will signal generators 4.7 and 4.13 to reopen chamber doors 4.6 and 4.12, whereby the ATCOM process may be repeated.
This Substitute Specification contains no new matter.