Certain aspects and examples are directed to sorbent devices and methods of using them. In certain embodiments, a sorbent device comprising a body comprising a sampling inlet, a sampling outlet and a cavity between the inlet and the outlet, the cavity comprising a serial arrangement of at least four
Certain aspects and examples are directed to sorbent devices and methods of using them. In certain embodiments, a sorbent device comprising a body comprising a sampling inlet, a sampling outlet and a cavity between the inlet and the outlet, the cavity comprising a serial arrangement of at least four different sorbent materials is described. In some embodiments, the sorbent materials are arranged from a material with a weakest sorbent strength to a material with a strongest sorbent strength with the weakest sorbent strength material adjacent to the sampling inlet.
대표청구항▼
1. A sorbent device comprising a body comprising a sampling inlet, a sampling outlet and a cavity between the inlet and the outlet, the cavity comprising a serial arrangement of at least four different sorbent materials each effective to adsorb and desorb species, in which the sorbent materials are
1. A sorbent device comprising a body comprising a sampling inlet, a sampling outlet and a cavity between the inlet and the outlet, the cavity comprising a serial arrangement of at least four different sorbent materials each effective to adsorb and desorb species, in which the sorbent materials are arranged from a material with a weakest sorbent strength to a material with a strongest sorbent strength, according to their relative ability to adsorb the species, with the weakest sorbent strength material adjacent to the sampling inlet, in which at least three of the four different sorbent materials are a graphitized carbon black. 2. The device of claim 1, further comprising a fluid permeable barrier between each of the different sorbent materials. 3. The device of claim 2, in which the fluid permeable barrier comprises a steel mesh. 4. The device of claim 1, in which one of the four different sorbent materials comprises a carbon molecular sieve. 5. The device of claim 1, in which none of the graphitized carbon black sorbent materials is the same material. 6. The device of claim 1, in which the sorbent materials are effective to desorb substantially all volatile organic species adsorbed to the four different sorbent materials in a single desorption cycle. 7. The device of claim 6, in which the sorbent materials are effective to be reused without any temperature treatment steps after the single desorption cycle. 8. A sorbent device effective to adsorb and desorb volatile organic species in a sample, the sorbent device comprising a hollow tube comprising a body, a sampling inlet and a sampling outlet, the body comprising an interior volume in which at least four different sorbent materials are disposed, the sorbent materials being effective to desorb substantially all of the volatile organic species adsorbed to the sorbent materials by heating the sorbent device in a single desorption cycle, in which the sorbent materials are arranged serially from a material with a weakest sorbent strength to a material with a strongest sorbent strength, according to their relative ability to adsorb species, with the weakest sorbent strength material adjacent to the sampling inlet, in which at least three of the four different sorbent materials are a graphitized carbon black. 9. The device of claim 8, in which the different sorbent materials are separated from each other by a fluid permeable barrier. 10. The device of claim 9, in which the fluid permeable barrier comprises a steel mesh. 11. The device of claim 8, in which none of the four different sorbent materials comprises the same material. 12. The device of claim 8, in which one of the sorbent materials is a carbon molecular sieve with none of the sorbent materials being the same material. 13. The device of claim 8, in which the sorbent materials are effective to be reused without any temperature treatment steps after the single desorption cycle. 14. A method comprising: exposing a sorbent device to an environment comprising volatile species to permit the volatile species to adsorb to the sorbent device, the sorbent device comprising a plurality of different sorbent materials, in which the sorbent materials are arranged from a material with a weakest sorbent strength to a material with a strongest sorbent strength, according to their relative ability to adsorb species, with the weakest sorbent strength material adjacent to a sampling inlet of the sorbent device, in which the sorbent device comprises at least three graphitized carbon black sorbent materials; anddesorbing the species adsorbed to the sorbent device by heating the sorbent device in a single desorption cycle to desorb substantially all adsorbed species in the sorbent device. 15. The method of claim 14, further comprising reusing the sorbent device to permit adsorption of volatile species to the sorbent device without any further temperature treatment steps to remove residual adsorbed species. 16. The method of claim 14, in which the sorbent device has four different sorbent materials disposed serially in the cavity in which none of sorbent the materials are the same material. 17. The method of claim 14, in which one of the sorbent materials comprises a carbon molecular sieve. 18. The method of claim 17, in which none of the sorbent materials are the same material. 19. The method of claim 16, in which the strongest sorbent material is disposed adjacent to a sampling outlet of the sorbent device, the weakest sorbent material is disposed adjacent to the sampling inlet and the other sorbent materials are disposed between the strongest sorbent material and the weakest sorbent materials and arranged in order from weakest sorbent strength to strongest sorbent strength, according to their relative ability to adsorb species. 20. The sorbent device of claim 1, in which at least one of the four different sorbent materials comprises a mixture of graphitized carbon blacks of different strengths, graphite, carbon molecular sieves, polymer resins, an oxide, fused silica beads, glass, quartz, charcoal, porous polymers, or amisorbs.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (32)
Tipler, Andrew; Campbell, Gary; Collins, Mark, Analyte pre-concentrator for gas chromatography.
Tyndall,Daniel Warren; Golden,Timothy Christopher; Farris,Thomas Stephen; Taylor,Fred William; Furlan,Wayne Robert; Rabasco,John Joseph, Apparatus and process for air cleaning.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.