IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0431488
(1989-11-03)
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발명자
/ 주소 |
- Knaebel Kent S. (Plain City OH)
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출원인 / 주소 |
- The Ohio State University (Columbus OH 02)
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인용정보 |
피인용 횟수 :
30 인용 특허 :
14 |
초록
▼
A pressure swing adsorption cycle comprised of blowdown, purge, pressurization, feed, pressure equalization and rinse steps provided recovery from an atmospheric air feed, essentially dry and free of carbon dioxide, of a high yield of high purity nitrogen gas and a high yield of a product gas rich i
A pressure swing adsorption cycle comprised of blowdown, purge, pressurization, feed, pressure equalization and rinse steps provided recovery from an atmospheric air feed, essentially dry and free of carbon dioxide, of a high yield of high purity nitrogen gas and a high yield of a product gas rich in oxygen as well as recovery of a residual feed byproduct gas for recycle with the air feed.
대표청구항
▼
A method for production of high purity nitrogen and a product oxygen rich gas from air, which is essentially dry and free from carbon dioxide, which method consists essentially of repeated cycles of the steps, in sequence, comprising: 1. feeding through a line of said air under pressure into one end
A method for production of high purity nitrogen and a product oxygen rich gas from air, which is essentially dry and free from carbon dioxide, which method consists essentially of repeated cycles of the steps, in sequence, comprising: 1. feeding through a line of said air under pressure into one end and flowing through a column containing a bed of an adsorbent, which is a preferential adsorber for nitrogen in comparison to oxygen, a. with upon commencement of said feeding, the bed and column already saturated and pressurized to a superatmospheric pressure by pure oxygen, or by product oxygen rich gas from an earlier cycle, and b. discharging unadsorbed effluent of said feeding air from the other end of said bed which forms a front of air that moves through the column, which unadsorbed effluent be product oxygen rich gas, and with collection of the product oxygen rich gas in a collection vessel, and c. continuing said feeding and said discharging and said collection for about that time requisite for a front of air adsorption on said bed to progress to abut the other end of the bed from which said effluent is discharging with monitoring of the front, and d. thereupon ceasing said feeding upon said front progressing to abut the other end of the bed; and 2. pressure equalizing the column and its contents by a. closing off access of the unadsorbed effluent in the collection vessel to the column, and b. opening an access to a storage vessel containing feed air at a pressure higher than the superatmospheric pressure in said column for said step 1 for said feeding, with c. pressures in said column and said storage vessel permitted to become substantially equal, and d. with said opening of said access to said storage vessel being to the line for said feeding of said air, then 3. rinsing under superatmospheric pressure the column and its contents by a. feeding under pressure of pure nitrogen, or of high purity nitrogen produced in an earlier cycle, into said column and flowing therethrough, with b. the feeding under pressure of the pure nitrogen or of said high purity nitrogen, which forms a front of nitrogen that moves through the column, being into the column at the other end which in step 1. b. had been discharging unadsorbed effluent of said feeding air, and c. with an initial discharging from the one end of said column of a residual feed byproduct gas containing at least some air and with a flowing to and storage in said storage vessel of the initial discharging of said residual feed byproduct gas, and d. continuing the initial discharging of the residual feed byproduct gas for about that time for a front of nitrogen to just pass through the one end of the column with monitoring of the front and then discontinuing, upon the front just passing through the end of the column, the flowing of the residual feed byproduct gas to said storage vessel, thereupon the column and its contents are subjected to a 4. blowing down by a. closing access from said column to said storage vessel, and b. discontinuing said step 3.a. feeding with a closing of said column from said step 3.a. feeding, and c. opening an entry to a nitrogen product surge tank for flow from said column thereto with the nitrogen product surge tank containing nitrogen at an absolute pressure of one-third to one-twentieth the pressure of the effluent of high purity nitrogen and present contents of said column, whereby d. said effluent of high purity nitrogen and nitrogen in said column surges from said column and passes into the nitrogen product surge tank, and then 5. purging said column of high purity nitrogen by a. providing a feed of product oxygen rich gas at essentially the same low pressure as said absolute pressure of said nitrogen in step 4.c., into said column to withdraw and with withdrawal of waste or byproduct gas, both adsorbed and unadsorbed, in a direction from the column counter from said step 1 feeding of said air, and b. passing of said waste or byproduct gas of said withdrawal to the purge waste tank, with c. cessation of said purging following recovery and accumulation in the purge waste tank of not more than one-half of the amount of nitrogen in said air introduced by the feeding in said step 1., and then 6. pressurizing the column and the bed of adsorbent therein by a. flowing into the column of said product oxygen enriched gas until the bed and the column are saturated therewith and to the superatmospheric pressure for said step 1 of feeding of said air, with b. the flowing into the column of said product oxygen enriched gas being into the other end and in a direction counter to the direction of said step 1 feeding.
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