IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0510745
(2003-04-11)
|
등록번호 |
US-7300497
(2007-11-27)
|
우선권정보 |
JP-2002-112145(2002-04-15) |
국제출원번호 |
PCT/JP03/004655
(2003-04-11)
|
§371/§102 date |
20041012
(20041012)
|
국제공개번호 |
WO03/086586
(2003-10-23)
|
발명자
/ 주소 |
- Urakami,Tatsushi
- Nagasaka,Tooru
- Kawai,Masato
- Nakamura,Akihiro
|
출원인 / 주소 |
- Taiyo Nippon Sanso Corporation
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
5 |
초록
▼
A gas separation method is provided in which, when separating a first component and a second component from a mixed gas containing a plurality of components by using a pressure swing adsorption method, these components can be efficiently recovered and cost reduction can be achieved. Between an adsor
A gas separation method is provided in which, when separating a first component and a second component from a mixed gas containing a plurality of components by using a pressure swing adsorption method, these components can be efficiently recovered and cost reduction can be achieved. Between an adsorption step and a regeneration process step, which use a first adsorption column containing a first adsorbent on which the first component is less readily adsorbable and the second component is absorbable, and a second adsorption column containing a second adsorbent on which the first component is readily adsorbable and the second component is less readily adsorbable, an equalization depressurization step and an equalization pressurization process step, in which the pressure of the first and second adsorption columns is equalized, is carried out.
대표청구항
▼
The invention claimed is: 1. A gas separation method which uses a pressure swing adsorption method to separate from a mixed gas containing at least two components, a first component and a second component, using a first adsorbable column containing a first adsorbent on which said first component is
The invention claimed is: 1. A gas separation method which uses a pressure swing adsorption method to separate from a mixed gas containing at least two components, a first component and a second component, using a first adsorbable column containing a first adsorbent on which said first component is less readily adsorbable and said second component is more readily absorbable, and a second adsorption column containing a second adsorbent on which said first component is more readily adsorbable and said second component is less readily adsorbable, comprising: a first step comprising an adsorption step in which in said first adsorption column, said mixed gas is supplied at a high pressure and said second component is selectively adsorbed and said first component is separated as a first product gas, and a regeneration step in which in said second adsorption column, said first component is desorbed by depressurization; a second step comprising an equalization depressurization step in which said first adsorption column is depressurized by connecting said first adsorption column and said second adsorption column, and introducing the gas in said first adsorption column into said second adsorption column, to pressure equalize said first and second adsorption columns, and an equalization pressurization step in which said second adsorption column is pressurized to equalize the pressure of said first and second adsorption columns; a third step comprising a regeneration step in which in said first adsorption column, said second component is desorbed by depressurization, and an adsorption step in which in said second adsorption column, said mixed gas is supplied at a high pressure, and said first component is selectively adsorbed, and said second component is separated as a second product gas; and a fourth step comprising an equalization depressurization step in which said second adsorption column is depressurized by connecting said second adsorption column and said first adsorption column, and introducing the gas in said second adsorption column into said first adsorption column, to pressure equalize said first and second adsorption columns, and an equalization pressurization step in which said first adsorption column is pressurized to equalize the pressure of said first and second adsorption columns, wherein a first product gas storage tank that stores said first product gas and a second product gas storage tank that stores said second product gas are used, and in said regeneration step in said first and second adsorption columns, each product gas in said first and the second product gas storage tanks is introduced into said first and the second adsorption columns respectively, and in said equalization pressurization step in said first and second adsorption columns, each product gas in said first and the second product gas storage tanks is introduced into said first and second adsorption columns respectively. 2. A gas separation method according to claim 1, wherein one of said first and second components is krypton or xenon, and the other one is nitrogen. 3. A gas separation method according to claim 1, wherein one of said first and second adsorbents is an equilibrium type adsorbent, and the other one is a rate-selective adsorbent. 4. A gas separation method according to claim 1, wherein one of said first and second adsorbents is activated carbon, and the other one is zeolite. 5. A gas separation method according to claim 3, wherein in the adsorption column having said rate-selective adsorbent, a maximum pressure reached in said adsorption step is 300 to 500 kPa (gauge pressure). 6. A gas separation method which uses a pressure swing adsorption method to separate from a mixed gas containing at least two components, a first component and a second component, using a first adsorption column containing a first adsorbent on which said first component is less readily adsorbable and said second component is more readily absorbable, and a second adsorption column containing a second adsorbent on which said first component is more readily adsorbable and said second component is less readily adsorbable, comprising: a first step comprising an adsorption step in which in said first adsorption column, said mixed gas is supplied at a high pressure and said second component is selectively adsorbed and said first component is separated as a first product gas, and a regeneration step in which in said second adsorption column, said first component is desorbed by depressurization; a second step comprising an equalization depressurization step in which said first adsorption column is depressurized by connecting said first adsorption column and said second adsorption column, and introducing the gas in said first adsorption column into said second adsorption column, to pressure equalize said first and second adsorption columns, and an equalization pressurization step in which said second adsorption column is pressurized to equalize the pressure of said first and second adsorption columns; a third step comprising a regeneration step in which in said first adsorption column, said second component is desorbed by depressurization, and an adsorption step in which in said second adsorption column, said mixed gas is supplied at a high pressure, and said first component is selectively adsorbed, and said second component is separated as a second product gas; and a fourth step comprising an equalization depressurization step in which said second adsorption column is depressurized by connecting said second adsorption column and said first adsorption column, and introducing the gas in said second adsorption column into said first adsorption column, to pressure equalize said first and second adsorption columns, and an equalization pressurization step in which said first adsorption column is pressurized to equalize the pressure of said first and second adsorption columns, wherein in said equalization depressurization step in said first and second adsorption columns, the gas in said first and the second adsorption columns is stored into first and second purge gas storage tanks respectively as purge gas; and in said regeneration step in said first and second adsorption columns, the purge gas in said first and second purge gas storage tanks is introduced into said first and second adsorption columns respectively.
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