IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0350716
(2006-02-08)
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등록번호 |
US-7430928
(2008-10-07)
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발명자
/ 주소 |
- Grate,Jay W.
- Baldwin,David L.
- Anheier, Jr.,Norman C.
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출원인 / 주소 |
- Battelle Memorial Insititute
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
10 |
초록
▼
An apparatus and method are disclosed for pre-concentrating gaseous vapors for analysis. The invention finds application in conjunction with, e.g., analytical instruments where low detection limits for gaseous vapors are desirable. Vapors sorbed and concentrated within the bed of the apparatus can b
An apparatus and method are disclosed for pre-concentrating gaseous vapors for analysis. The invention finds application in conjunction with, e.g., analytical instruments where low detection limits for gaseous vapors are desirable. Vapors sorbed and concentrated within the bed of the apparatus can be thermally desorbed achieving at least partial separation of vapor mixtures. The apparatus is suitable, e.g., for preconcentration and sample injection, and provides greater resolution of peaks for vapors within vapor mixtures, yielding detection levels that are 10-10,000 times better than for direct sampling and analysis systems. Features are particularly useful for continuous unattended monitoring applications.
대표청구항
▼
We claim: 1. An analytical system characterized by a preconcentrator, said preconcentrator comprising: a tube defining a conduit having at least one inlet and one outlet for flowing one or more vapors in a gaseous volume therethrough, said conduit filled with a metal foam core; said metal foam core
We claim: 1. An analytical system characterized by a preconcentrator, said preconcentrator comprising: a tube defining a conduit having at least one inlet and one outlet for flowing one or more vapors in a gaseous volume therethrough, said conduit filled with a metal foam core; said metal foam core having at least one sorbent disposed within said metal foam, said sorbent configured to selectively adsorb and desorb preselected materials at designated conditions, said metal foam further configured to have sufficient thermal conductivity whereby essentially uniform temperatures throughout said metal foam are obtained in response to heating or cooling; and a heater operatively connected to said tube and its contents whereby the temperature within said metal foam can be varied according to a preselected criteria. 2. The analytical system of claim 1, wherein the metal foam comprises nickel. 3. The analytical system of claim 1, wherein the metal foam comprises stainless steel. 4. The analytical system of claim 1, wherein the metal foam has a mean pore diameter of about 380 microns. 5. The analytical system of claim 1, wherein the metal foam comprises at least about 95% air by volume. 6. The analytical system of claim 1, wherein said sorbent is of a mesh size selected in the range from about 60 to about 80. 7. The analytical system of claim 1, wherein said sorbent is of a grain size selected in the range from about 170 microns to about 250 microns. 8. The analytical system of claim 1, wherein said sorbent comprises a member selected from the group of Tenax��, Carbotrap��, Carboxen��, Carbosieve��, carbon nanotubes, glass bead, polymers, molecular sieves, activated carbons, ceramics, aluminas, silicas, silica gels, polars, dessicants, and combinations thereof. 9. The analytical system of claim 1, wherein said preconcentrator is operatively connected to an analytical device selected from the group consisting of Surface Acoustic Wave sensor, Flexural Plate Wave Sensor, mass spectrometer, ion mobility spectrometer, sensor array, multivariate detector, flame ionization detector, chemical sensor, gas chromatograph, gas chromatographic detector, and combinations thereof. 10. The analytical system of claim 1, wherein said preconcentrator further comprises a temperature sensor operatively connected to said heater to perform controlled thermal desorption of said one or more vapors. 11. The analytical system of claim 1, wherein said preconcentrator is operatively connected to a detector for analysis of said one or more vapors desorbed therefrom said detector selected from the group consisting of sensor arrays, chemical sensors, gas chromatographs, mass spectrometers, ion mobility spectrometers, gas-chromatography detectors, and combinations thereof. 12. The analytical system of claim 1, wherein said preconcentrator is operatively connected to a gas chromatography detector selected from the group consisting of thermal conductivity detectors, electron capture detectors, flame ionization detectors, and combinations thereof.
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