IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0332349
(2001-07-02)
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우선권정보 |
FR-0008905 (2000-07-07) |
국제출원번호 |
PCT/FR01/02115
(2003-05-19)
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§371/§102 date |
20030519
(20030519)
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국제공개번호 |
WO02/04096
(2002-01-17)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Millen, White, Zelano &
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인용정보 |
피인용 횟수 :
6 인용 특허 :
21 |
초록
▼
Conducting a PSA process for the purification of gaseous hydrogen contaminated at least with CO and N2 of the H1 where the gas stream to be purified is passed through an adsorption region comprising at least one adsorbent based on zeolite 5A and one adsorbent based on zeolite X exchanged with calciu
Conducting a PSA process for the purification of gaseous hydrogen contaminated at least with CO and N2 of the H1 where the gas stream to be purified is passed through an adsorption region comprising at least one adsorbent based on zeolite 5A and one adsorbent based on zeolite X exchanged with calcium.
대표청구항
▼
1. A pressure swing adsorption process (PSA) for the purification of a hydrogen gas mixture containing contaminants comprising carbon monoxide and nitrogen and optionally at least one of carbon dioxide, water and C1-C8 hydrocarbons, comprising an adsorption region containing an inlet and outlet and
1. A pressure swing adsorption process (PSA) for the purification of a hydrogen gas mixture containing contaminants comprising carbon monoxide and nitrogen and optionally at least one of carbon dioxide, water and C1-C8 hydrocarbons, comprising an adsorption region containing an inlet and outlet and the following successive stages:a) passing said hydrogen gas mixture into the adsorption region comprising: optionally at least one first adsorbent bed comprising one or more selective adsorbents for impurities selected from the group consisting of carbon dioxide, saturated or unsaturated linear, branched or cyclic C1-C8 hydrocarbons and water, and when said first adsorbent bed is employed, passing effluent from the first adsorbent bed directly into, a second adsorbent bed comprising a 5A zeolite capable of selectively adsorbing carbon monoxide, or when the first bed is not employed passing said hydrogen gas mixture containing contaminants directly into the second adsorbent bed and passing effluent from the second adsorbent bed into, a third adsorbent bed capable of selectively adsorbing nitrogen, which is a zeolite X of the faujasite type with an Si/Al ratio of less than 2, at least 60% of the exchangeable sites of which are occupied by calcium ions; b) in a desorption stage, desorbing the carbon monoxide, nitrogen and possible other impurities adsorbed on the absorbents by providing of a pressure gradient and gradual lowering of the pressure in said adsorption region, so as to recover the carbon monoxide, nitrogen and optionally other impurities via the inlet of said adsorption region; and c) raising in pressure said adsorption region by the introduction of a stream of pure hydrogen via the outlet of the adsorption region, said process resulting in a substantially enhanced relative productivity compared to a process wherein the only difference is that the second and third adsorbent are the same and being either CaA or CaX, said relative productivity being calculated at stationary conditions for a hydrogen yield of 80% and a hydrogen purity of 99.999%. 2. A process according to claim 1, comprising intermediate “balancing” phases between two adsorbent beds: one of these two beds being in a decompression phase and the other in a recompression phase.3. A process according to claim 1, wherein the desorption stage b) is complemented by a purging phase comprising recycling a portion of the purified hydrogen to the adsorption region.4. A process according to claim 1, wherein at least one of the 2nd and 3rd adsorbents is agglomerated with a binder.5. A process according to claim 4, comprising a stage of zeolitization of the binder or binders with which zeolites of the 2nd and/or 3rd adsorbents are agglomerated.6. A process according to claim 1, comprising the 1st adsorbent bed, and wherein said first adsorbent bed comprises active charcoal, alumina or silica gel, alone, or as a dry blend mixture or as separate layers.7. A process according to claim 1, wherein the zeolite of the 3rd adsorbent bed is such that the ratio of the degree of exchange with respect to calcium to the sum of the degrees of exchange with respect to calcium and lithium: Ca/Ca+Li, is greater than or equal to 0.7.8. A process according to claim 7, wherein the ratio Ca/Ca+Li is about 1.9. A process according to claim 1, wherein at least 35% of the 5A zeolite exchangeable sites are occupied by calcium ions.10. A process according to claim 9, wherein at least 60% of the 5A zeolite exchangeable sites are occupied by calcium ions.11. A process according to claim 10, wherein at least 80% of the exchangeable sites of the third adsorbent are occupied by calcium ions.12. A process according to claim 9, wherein the Si/Al ratio of the third adsorbent is about 1.13. A process according to claim 12, wherein at least 80% of the exchangeable sites of the third adsorbent are occupied by calcium ions.14. A process according to claim 13, comprising the 1st adsorbent bed and wherein said first adsorbent bed comprises active charcoal, alumina or silica gel, alone, or as a dry blend mixture or as separate layers.15. A process according to claim 13, wherein the hydrogen gas mixture to be purified comprises a hydrogen mixture resulting from the reforming of natural gas, and said hydrogen mixture is passed directly into the first bed or directly into the second.16. A process according to claim 15, wherein effluent from the second adsorbent bed is passed directly into the third adsorbent bed.17. A process according to claim 9, wherein at least 80% of the exchangeable sites of the third adsorbent are occupied by calcium ions.18. A process according to claim 1, wherein at least 80% of the exchangeable sites of the third adsorbent are occupied by calcium ions.19. A process according to claim 1, wherein effluent from the second adsorbent bed is passed directly into the third adsorbent bed.20. process according to claim 1, wherein the hydrogen gas mixture comprises approximately 20% CO2, 5% CO, 5% CH4,5% N2 and the remainder being substantially hydrogen.21. A process according to claim 1, wherein said 5A zeolite is a CaA zeolite having an adsorption capacity at 25° C. under a pressure of 0.1 MPa of about 0.4 mol of N2 per kilogram of adsorbent and about 1 mol of CO per kilogram of adsorbent; and said zeolite X is a low silica CaX having an adsorption capacity at 25° C. and under 0.1 MPa of about 0.95 mol of N2 per kilograim of adsorbent and about 1.7 mol of CO per kilogram of adsorbent.22. A pressure swing adsorption process(PSA) for the purification of a hydrogen gas mixture containing contaminants comprising at least about 65 mol % hydrogen, carbon monoxide and nitrogen and optionally at least one of carbon dioxide, water and C1-C8 hydrocarbons, comprising an adsorption region containing an inlet and outlet and the following successive stages:a) passing said hydrogen gas mixture into the adsorption region comprising: optionally at least one first adsorbent bed comprising one or more selective adsorbents for impurities selected from the group consisting of carbon dioxide, saturated or unsaturated linear, branched or cyclic C1-C8 hydrocarbons and water, and when said first adsorbent bed is employed, passing effluent from the first adsorbent bed into, a second adsorbent bed comprising a 5A zeolite capable of selectively adsorbing carbon monoxide, or when the first bed is not employed passing said hydrogen gas mixture containing contaminants into the second adsorbent bed and passing effluent from the second adsorbent bed into, a third adsorbent bed capable of selectively adsorbing nitrogen, which is a zeolite X of the faujasite type with an Si/Al ratio of less than 2, at least 60% of the exchangeable sites of which are occupied by calcium ions; b) in a desorption stage, desorbing the carbon monoxide, nitrogen and possible other impurities adsorbed on the adsorbents by providing of a pressure gradient and gradual lowering of the pressure in said adsorption region, so as to recover the carbon monoxide, nitrogen and optionally other impurities via the inlet of said adsorption region; and c) raising in pressure said adsorption region by the introduction of a stream of pure hydrogen via the outlet of the adsorption region, said process resulting in a substantially enhanced relative productivity compared to a process wherein the only difference is that the second and third adsorbent are the same and being either CaA or CaX, said relative productivity being calculated at stationery conditions for a hydrogen yield of 80% and a hydrogen purity of 99.999%. 23. A process according to claim 22, wherein said 5A zeolite is a CaA zeolite having an adsorption capacity at 25° C. under a pressure of 0.1 MPa of about 0.4 mol of N2 per kilogram of adsorbent and about 1 mol of CO per kilogram of adsorbent; and said zeolite X is a low silica CaX having an adsorption capacity at 25° C. and under 0.1 MPa of about 0.95 mol of N2 per kilogram of adsorbent and about 1.7 mol of CO per kilogram of adsorbent.24. The process of claim 22 wherein said hydrogen gas mixture contains at least about 70 mol % hydrogene.25. A pressure swing adsorption process(PSA) for the purification of a hydrogen gas mixture containing contaminants comprising carbon monoxide and nitrogen and optionally at least one of carbon dioxide, water and C1-C8 hydrocarbons, comprising an adsorption region containing an inlet and outlet and the following successive stages:a) passing said hydrogen gas at a pressure of at least 1.5 atmospheres mixture into the adsorption region comprising: optionally at least one first adsorbent bed comprising one or more selective adsorbents for impurities selected from the group consisting of carbon dioxide, saturated or unsaturated linear, branched or cyclic C1-C8 hydrocarbons and water, and when said first adsorbent bed is employed, passing effluent from the first adsorbent bed into, a second adsorbent bed comprising a 5A zeolite capable of selectively adsorbing carbon monoxide, or when the first bed is not employed passing said hydrogen gas mixture resulting from reforming natural gas containing contaminants into the second adsorbent bed and passing effluent from the second adsorbent bed into, a third adsorbent bed capable of selectively adsorbing nitrogen, which is a zeolite X of the faujasite type with an Si/Al ratio of less than 2, at least 60% of the exchangeable sites of which are occupied by calcium ions; b) in a desorption stage, desorbing the carbon monoxide, nitrogen and possible other impurities adsorbed on the adsorbents by providing of a pressure gradient and gradual lowering of the pressure in said adsorption region, so as to recover the carbon monoxide, nitrogen and optionally other impurities via the inlet of said adsorption region; and c) raising in pressure said adsorption region by the introduction of a stream of pure hydrogen via the outlet of the adsorption region, said process resulting in a substantially enhanced relative productivity compared to a process wherein the only difference is that the second and third adsorbent are the same and being either CaA or CaX, said relative productivity being calculated at stationary conditions for a hydrogen yield of 80% and a hydrogen purity of 99.999%. 26. A process according to claim 25, wherein said 5A zeulite is a CaA zeolite having an adsorption capacity at 25° C. under a pressure of 0.1 MPa of about 0.4 mol of N2 per kilogram of adsorbent and about 1 mol of CO per kilogram of adsorbent; and said zeolite X is a low silica CaX having an adsorption capacity at 25° C. and under 0.1 MPa of about 0.95 mol of M2 per kilogram of adsorbent and about 1.7 mol of CO per kilogram of adsorbent.
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