초록 ▼

Decontamination systems and methods are disclosed. In one embodiment, a system comprises a first adsorption/desorption subsystem that is configured to receive a contaminated gaseous solution and remove substantially all of the contaminants from the contaminated gaseous solution during an adsorption

Decontamination systems and methods are disclosed. In one embodiment, a system comprises a first adsorption/desorption subsystem that is configured to receive a contaminated gaseous solution and remove substantially all of the contaminants from the contaminated gaseous solution during an adsorption cycle, while a second subsystem is configured to purge captured contaminants during a desorption cycle. An evacuator is configured to drive potentially flammable gas compositions from the subsystem operating in a desorption cycle back into the system such that potentially flammable gas compositions are purged from the subsystem operating in the desorption cycle at the beginning of the desorption cycle. A heat source is configured to heat contaminants adsorbed in the adsorption/desorption subsystems to remove the contaminants from the adsorption/desorption subsystems in a gaseous state during their respective desorption cycle.

대표청구항 ▼

What is claimed is: 1. A decontamination system, comprising: an adsorption/desorption subsystem configured to receive contaminated gaseous solution and to remove substantially all of the contaminants from the contaminated gaseous solution during an adsorption cycle, the adsorption/desorption subsys

What is claimed is: 1. A decontamination system, comprising: an adsorption/desorption subsystem configured to receive contaminated gaseous solution and to remove substantially all of the contaminants from the contaminated gaseous solution during an adsorption cycle, the adsorption/desorption subsystem compriing first and second adsorption/desorption modules operable in alternating adsorption and desorption cycles, wherein one module is configured to receive contaminated gaseous solution and remove substantially all of the contaminants from the contaminated gaseous solution during its adsorption cycle while the other module is configured to purge captured contaminants during its desorption cycle; a dry-heat heat source configured to heat contaminants adsorbed in the adsorption/desorption subsystem to remove the contaminants therefrom during a desorption cycle by heating the contaminants to a gaseous state to create a vapor pressure in the adsorption/desorption subsystem sufficient to drive out the gaseous contaminants as a substantially pure volume; a condenser configured to receive the substantially pure volume of gaseous contaminants driven out of the adsorption/desorption subsystem by the vapor pressure and to condense the substantially pure volume of gaseous contaminants into a substantially pure condensate of the contaminants for recovery as a liquid free product; and an evacuator configured to drive potentially flammable gas compositions from the module operating in a desorption cycle back into the system such that potentially flammable gas compositions are purged from the module operating in the desorption cycle at the beginning of the desorption cycle. 2. A decontamination system according to claim 1, wherein the dry-heat heat source comprises a hot-water boiler, the hot-water boiler configured to heat water and pass the heated water through the adsorption/desorption subsystems to heat the contaminants to a gaseous state to remove the gaseous contaminants during the desorption cycle. 3. A decontamination system according to claim 2, wherein the hot-water boiler is further configured to pressurize water to create the heated water having a temperature above 100�� C. 4. A decontamination system according to claim 1, wherein the dry-heat heat source further comprises a coil within the adsorption/desorption subsystem for providing the dry-heat proximate to the contaminants. 5. A decontamination system according to claim 1, further comprising a separator configured to receive the condensate and to separate substantially all of the liquid free product from and remaining aqueous condensate. 6. A decontamination system according to claim 5, wherein the separator is further configured to send the separated remainder of aqueous condensate back to an air stripper coupled in front of the adsorption/desorption subsystem. 7. A decontamination system according to claim 5, further comprising a photocatalytic system coupled to the separator and configured to eliminate the separated remainder of aqueous condensate. 8. A decontamination system according to claim 5, further comprising a secondary filtration subsystem coupled to the separator and configured to eliminate the separated remainder of aqueous condensate. 9. A decontamination system according to claim 1, further comprising an air stripper configured to receive an aqueous solution having contaminants and to transform at least a portion of the aqueous solution and the contaminants into the contaminated gaseous solution. 10. A decontamination system according to claim 9, further comprising an air blower coupled between the air stripper and the adsorption/desorption subsystem, and configured to transfer at least a portion of the remaining gaseous solution from the adsorption/desorption subsystem to the air stripper. 11. A decontamination system according to claim 1, wherein the evacuator comprises a nonflammable gas loop configured to deliver nonflammable gas into the subsystem operating in a desorption cycle to purge the flammable gas compositions from that subsystem at the beginning of its desorption cycle and back into the system. 12. A decontamination system according to claim 11, wherein the nonflammable gas comprises nitrogen. 13. A decontamination system according to claim 1, further comprising a burning device for burning the gaseous contaminants removed from the adsorption/desorption subsystem. 14. A method of decontaminating media, the method comprising: receiving a contaminated gaseous solution; removing substantially all of the contaminants from the contaminated gaseous solution using first and second adsorption/desorption subsystems; heating contaminants adsorbed in the first and second adsorption/desorption subsystems during their respective desorption cycle, while the other of the subsystems is in its adsorption cycle, with a dry-heat to transform the adsorbed contaminants from the subsystem operating in the desorption cycle to a gaseous state to create a vapor pressure in the adsorption/desorption subsystem sufficient to drive out the gaseous contaminants as a substantially pure volume; condensing the substantially pure volume of gaseous contaminants driven out of the adsorption/desorption subsystem by the vapor pressure into a substantially pure condensate for recovery as a liquid free product; and evacuating potentially flammable gas compositions from the subsystem operating in a desorption cycle such that potentially flammable gas compositions are purged from the subsystem operating in the desorption cycle at the beginning of the desorption cycle. 15. A method according to claim 14, wherein heating with a dry-heat comprises passing heated water through the adsorption/desorption subsystem to heat the contaminants to a gaseous state during the desorption cycle. 16. A method according to claim 15, wherein the heating further comprises pressurizing water to create the heated water passed through the adsorption/desorption subsystem having a temperature above 100�� C. 17. A method according to claim 14, further comprising separating substantially all of the liquid free product from any remaining aqueous condensate. 18. A method according to claim 17, further comprising recirculating the separated remainder of aqueous condensate back to an air stripper coupled in front of the adsorption/desorption subsystem before the removing step. 19. A method according to claim 14, further comprising eliminating the separated remainder of aqueous condensate using photocatalytic treatment. 20. A method according to claim 15, wherein passing heated water further comprises passing heated water through a coil within the adsorption/desorption subsystem for providing the dry-heat proximate to the contaminants. 21. A method according to claim 14, further comprising: providing an aqueous solution having contaminants; and transforming the aqueous solution and the contaminants to the contaminated gaseous solution before the removing step. 22. A method according to claim 21, further comprising blowing at least a portion of the contaminated gaseous solution back for the removing step. 23. A method according to claim 14, wherein the evacuating comprises delivering a nonflammable gas into the subsystem operating in a desorption cycle to purge the substantially contaminant-free vapors from that subsystem at the beginning of its desorption cycle. 24. A method according to claim 23, wherein the nonflammable gas comprises nitrogen. 25. A method according to claim 14, further comprising burning the gaseous contaminants removed from the adsorption/desorption subsystems.