IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0935733
(2004-09-07)
|
등록번호 |
US-7429289
(2008-09-30)
|
발명자
/ 주소 |
- Dolensky,Joseph T.
- Maddox, Jr.,Robert J.
- Murdoch,Robert W.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
3 |
초록
▼
A multi-chamber canister for a pressure swing absorption system within a general housing assembly. The chambers include a first molecular sieve chamber for receiving a first molecular sieve for separating air from the ambient environment into a concentrated gas and at least a second molecular sieve
A multi-chamber canister for a pressure swing absorption system within a general housing assembly. The chambers include a first molecular sieve chamber for receiving a first molecular sieve for separating air from the ambient environment into a concentrated gas and at least a second molecular sieve chamber disposed within the housing assembly for receiving a second molecular sieve for separating air from the ambient environment into a concentrated gas component. Furthermore, a supply chamber is disposed within the housing for receiving air from the ambient environment and for communicating air to either first or second molecular sieve chambers.
대표청구항
▼
What is claimed is: 1. A pressure swing adsorption system for separating air into a concentrated gas component, said system comprising: an air supply; a compressor for receiving and compressing the air supply, providing a compressed air supply; less than six molecular sieve chambers having molecula
What is claimed is: 1. A pressure swing adsorption system for separating air into a concentrated gas component, said system comprising: an air supply; a compressor for receiving and compressing the air supply, providing a compressed air supply; less than six molecular sieve chambers having molecular sieve material therewithin for separating the compressed air supply into a concentrated gas component, wherein the system has a recovery rate of the concentrated gas component of greater than approximately 30%, wherein the system has total weight, and wherein the system has a specific total weight per liter per minute (LPM)<5.7 lbs/LPM; and an outlet delivering at least 10 LPM of a continuous flow of the concentrated gas component, and wherein the pressure swing adsorption system is sized for use in a patient's home. 2. The system of claim 1, comprising two molecular sieve chambers. 3. The system of claim 1, wherein the molecular sieve material is a SILIPORITE�� molecular sieve material. 4. The system of claim 1, further comprising: a housing of a general length including a housing wall; a first molecular sieve chamber defined within said housing for receiving the molecular sieve material, the first molecular sieve chamber defined by a first molecular sieve chamber partition, wherein the first molecular sieve chamber partition and the housing wall define the first molecular sieve chamber; at least a second molecular sieve chamber defined within said housing for receiving the molecular sieve material, the second molecular sieve chamber defined by a second molecular sieve chamber partition, wherein the second molecular sieve chamber partition and the housing wall define the second molecular sieve chamber; and a supply chamber defined within the housing for receiving the compressed air supply and for communicating the compressed air supply to the first and the second molecular sieve chambers, the supply chamber defined by a supply chamber partition, wherein the supply chamber partition and the housing wall define the supply chamber, and wherein the supply chamber extends along a general length of the housing, the supply chamber including an air inlet for the air supply, the air inlet disposed a general distance apart from where the supply chamber fluidly communicates with either one of the first and the second molecular sieve chambers enabling the housing to act as a heat exchanger for cooling the air supply received from the air inlet. 5. A pressure swing adsorption system for separating air into a concentrated gas component, said system comprising: an air supply; a compressor for receiving and compressing the air supply, providing a compressed air supply; less than six molecular sieve chambers having molecular sieve material therewithin for separating the compressed air supply into a concentrated gas component, wherein the system has a recovery rate of the concentrated gas component of greater than approximately 30%, wherein the system utilizes power during operation, and wherein the system has a power level per liter per minute (LPM)≦120 W/LPM; and an outlet delivering at least 10 LPM of a continuous flow of the concentrated gas component, and wherein the pressure swing adsoption system is sized for use in a patient's home. 6. The system of claim 5, wherein the molecular sieve material is a SILIPORITE�� molecular sieve material. 7. The system of claim 5, further comprising: a housing of a general length including a housing wall; a first molecular sieve chamber defined within said housing for receiving the molecular sieve material, the first molecular sieve chamber defined by a first molecular sieve chamber partition, wherein the first molecular sieve chamber partition and the housing wall define the first molecular sieve chamber; at least a second molecular sieve chamber defined within said housing for receiving the molecular sieve material, the second molecular sieve chamber defined by a second molecular sieve chamber partition, wherein the second molecular sieve chamber partition and the housing wall define the second molecular sieve chamber; and a supply chamber defined within the housing for receiving the compressed air supply and for communicating the compressed air supply to the first and the second molecular sieve chambers, the supply chamber defined by a supply chamber partition, wherein the supply chamber partition and the housing wall define the supply chamber, and wherein the supply chamber extends along a general length of the housing, the supply chamber including an air inlet for the air supply, the air inlet disposed a general distance apart from where the supply chamber fluidly communicates with either one of the first and the second molecular sieve chambers enabling the housing to act as a heat exchanger for cooling the air supply received from the air inlet. 8. A pressure swing adsorption system for separating air into a concentrated gas component, said system comprising: an air supply; a compressor for receiving and compressing the air supply, providing a compressed air supply; less than six molecular sieve chambers having molecular sieve material therewithin for separating the compressed air supply into a concentrated gas component, wherein the system has a recovery rate of the concentrated gas component of greater than approximately 30%, wherein the selectivity (N2/O2) at 77�� F., 760 torr is approximately 6 min; and an outlet delivering at least 10 liters per minute (LPM) of a continuous flow of the concentrated gas component, and wherein the pressure swing adsorption system is sized for use in a patient's home. 9. The system of claim 8, wherein the molecular sieve material is a SILIPORITE�� molecular sieve material. 10. The system of claim 8, further comprising: a housing of a general length including a housing wall; a first molecular sieve chamber defined within said housing for receiving the molecular sieve material, the first molecular sieve chamber defined by a first molecular sieve chamber partition, wherein the first molecular sieve chamber partition and the housing wall define the first molecular sieve chamber; at least a second molecular sieve chamber defined within said housing for receiving the molecular sieve material, the second molecular sieve chamber defined by a second molecular sieve chamber partition, wherein the second molecular sieve chamber partition and the housing wall define the second molecular sieve chamber; and a supply chamber defined within the housing for receiving the compressed air supply and for communicating the compressed air supply to the first and the second molecular sieve chambers, the supply chamber defined by a supply chamber partition, wherein the supply chamber partition and the housing wall define the supply chamber, and wherein the supply chamber extends along a general length of the housing, the supply chamber including an air inlet for the air supply, the air inlet disposed a general distance apart from where the supply chamber fluidly communicates with either one of the first and the second molecular sieve chambers enabling the housing to act as a heat exchanger for cooling the air supply received from the air inlet.
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