Product gas concentrator and method associated therewith
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-053/02
출원번호
US-0106861
(2008-04-21)
등록번호
US-8668767
(2014-03-11)
발명자
/ 주소
Sprinkle, Thomas B.
Daniels, William J.
Drobnak, Thomas A.
Felty, David G.
Hodos, Valentine A.
Fabian, Martin J.
Shelnutt, Samuel J.
Olszewski, Jonathon R.
출원인 / 주소
Invacare Corporation
대리인 / 주소
Calfee, Halter & Griswold LLP
인용정보
피인용 횟수 :
1인용 특허 :
36
초록▼
Various equipment and methods associated with providing a concentrated product gas are provided. In one embodiment, the equipment includes an input device first and second sieve tanks, a variable restrictor, and a controller. In one embodiment, the method includes: a) selecting a desired output sett
Various equipment and methods associated with providing a concentrated product gas are provided. In one embodiment, the equipment includes an input device first and second sieve tanks, a variable restrictor, and a controller. In one embodiment, the method includes: a) selecting a desired output setting for the concentrated product gas from a plurality of output settings, b) separating one or more adsorbable components from a pressurized source gaseous mixture via first and second sieve tanks in alternating and opposing pressurization and purging cycles to form the concentrated product gas, and c) selectively controlling a variable restrictor based at least in part on the desired output setting to selectively provide flow between the first and second sieve tanks such that the flow for at least one output setting is different from the flow for at least one other output setting in relation to corresponding pressurization cycles.
대표청구항▼
1. An apparatus for providing a concentrated product gas, comprising: an input device adapted to select a desired output setting for the concentrated product gas from a plurality of output settings;first and second sieve tanks arranged to separate one or more adsorbable components from a pressurized
1. An apparatus for providing a concentrated product gas, comprising: an input device adapted to select a desired output setting for the concentrated product gas from a plurality of output settings;first and second sieve tanks arranged to separate one or more adsorbable components from a pressurized source gaseous mixture in alternating and opposing pressurization and purging cycles to form the concentrated product gas;a valve assembly to selectively provide an adjustable flow between the first and second sieve tanks, wherein the valve assembly includes a plurality of flow paths between the first and second sieve tanks; anda controller in operative communication with the input device and valve assembly to selectively control at least two flow paths between the first and second sieve tanks of the valve assembly based at least in part on the desired output setting such that the flow between the first and second sieve tanks for at least one output setting is different from the flow between the first and second sieve tanks for at least one other output setting in relation to corresponding pressurization cycles, the controller comprising: logic for opening a first flow path of one of the at least two sieve tank flow paths to allow a bleed flow of product gas from the pressurizing sieve tank to the purging sieve tank to assist regeneration of the purging sieve tank; andlogic for opening a second flow path of another of the at least two sieve tank flow paths to allow an equalization flow between the sieve tanks when the pressurizing sieve tank is near the end of the pressurizing cycle and the purging sieve tank is near the end of the purging cycle. 2. The apparatus of claim 1, the valve assembly comprising: a first orifice; anda bleed valve in series with the first orifice to selectively provide the bleed flow between the first and second sieve tanks;wherein the controller is in operative communication with the bleed valve to selectively control the bleed valve. 3. The apparatus of claim 2, the valve assembly further comprising: a second orifice in parallel with the series combination of the first orifice and bleed valve to provide a continuous flow between the first and second sieve tanks. 4. The apparatus of claim 2, the valve assembly further comprising: a pressure equalization valve in parallel with the series combination of the first orifice and bleed valve to selectively provide the equalization flow between the first and second sieve tanks;wherein the controller is in operative communication with the pressure equalization valve to selectively control the pressure equalization valve. 5. The apparatus of claim 1, the controller comprising: a first timer defining an adjustable bleed delay period in relation to the start of pressurization cycles during which flow between the first and second sieve tanks is limited;wherein the controller selectively controls the valve assembly based at least in part on the first timer and the adjustable bleed delay period for at least one output setting is different from the adjustable bleed delay period for at least one other output setting in relation to corresponding pressurization cycles; anda second timer defining an adjustable bleed duration period in relation to expiration of the adjustable bleed delay period during which flow between the first and second sieve tanks is increased;wherein the controller selectively controls the valve assembly based at least in part on the second timer and the adjustable bleed duration period for at least one output setting is different from the adjustable bleed duration period for at least one other output setting in relation to corresponding pressurization cycles. 6. The apparatus of claim 1, further comprising: a pressure sensor providing a detected pressure for the concentrated product gas;wherein the controller is in operative communication with the pressure sensor and selectively controls the valve assembly based at least in part on the detected pressure in relation to a bleed pressure threshold, the bleed pressure threshold for at least one output setting being different from the bleed pressure threshold for at least one other output setting in relation to corresponding pressurization cycles; anda timer defining an adjustable bleed duration period during which flow between the first and second sieve tanks is increased after a determination that the detected pressure is above the bleed pressure threshold;wherein the controller selectively controls the valve assembly based at least in part on the timer and the adjustable bleed duration period for at least one output setting is different from the adjustable bleed duration period for at least one other output setting in relation to corresponding pressurization cycles. 7. The apparatus of claim 1, wherein the at least two sieve tank flow paths selectively allow gas to flow from one sieve tank to the other sieve tank via one or more of the at least two sieve tanks without preventing the flow of concentrated product gas to a user. 8. The apparatus of claim 1, wherein the at least two sieve tank flow paths selectively allow gas to flow from one sieve tank to the other sieve tank via one or more of the at least two sieve tank flow paths while allowing the flow of concentrated product gas to a user. 9. The apparatus of claim 1, wherein the at least two sieve tank flow paths comprise: a bleed flow path comprising a bleed valve in series with a first orifice to selectively provide a bleed flow of product gas from the pressurizing sieve tank to the purging sieve tank to regenerate the purging sieve tank; andan equalization flow path comprising a pressure equalization valve in parallel with the series combination of the bleed valve and the first orifice to selectively equalize pressure between the sieve tanks when the pressurizing sieve tank is near the end of the pressurizing cycle and the purging sieve tank is near the end of the purging cycle. 10. The apparatus of claim 9, wherein the product gas flow through the bleed flow path is less than the product gas flow through the equalization flow path. 11. The apparatus of claim 1, the controller further comprising: logic for opening the first flow path and the second flow path simultaneously for a predetermined time. 12. The apparatus of claim 1, wherein the valve assembly further includes an output flow path to provide concentrated product gas to a user independent of the at least two sieve tank flow paths. 13. The apparatus of claim 12, wherein the at least two sieve tank flow paths and the output flow path each have separate parallel portions. 14. An apparatus for providing a concentrated product gas, comprising: an input device adapted to select a desired output setting for the concentrated product gas from a plurality of output settings;first and second sieve tanks arranged to separate one or more adsorbable components from a pressurized source gaseous mixture in alternating and opposing pressurization and purging cycles to form the concentrated product gas;a valve assembly to selectively provide an adjustable flow between the first and second sieve tanks, wherein the valve assembly includes: state A to provide a bleed rate flow path between the first and second sieve tanks; andstate B to provide a pressure equalization flow path between the first and second sieve tanks; anda controller in operative communication with the input device and valve assembly to selectively control the bleed rate flow path and the pressure equalization flow path of the valve assembly based at least in part on the desired output setting such that the flow between the first and second sieve tanks for at least one output setting is different from the flow between the first and second sieve tanks for at least one other output setting in relation to corresponding pressurization cycles, the controller comprising: logic for opening the bleed rate flow path to allow a bleed flow of product gas from the pressurizing sieve tank to the purging sieve tank to assist regeneration of the purging sieve tank; andlogic for opening the pressure equalization flow path to allow an equalization flow between the sieve tanks when the pressurizing sieve tank is near the end of the pressurizing cycle and the purging sieve tank is near the end of the purging cycle. 15. The apparatus of claim 14, the valve assembly comprising a plurality of valves to selectively provide an adjustable flow between the first and second sieve tanks. 16. The apparatus of claim 15, the valve assembly comprising: a bleed valve in series with a first orifice associated with state A to selectively provide the bleed flow between the first and second sieve tanks;wherein the controller is in operative communication with the bleed valve to selectively control the bleed valve. 17. The apparatus of claim 16, the valve assembly comprising: a pressure equalization valve associated with state B in parallel with the series combination of the bleed valve and the first orifice to selectively provide the equalization flow between the first and second sieve tanks;wherein the controller is in operative communication with the pressure equalization valve to selectively control the pressure equalization valve. 18. An apparatus for providing a concentrated product gas, comprising: an input device adapted to select a desired output setting for the concentrated product gas from a plurality of output settings;first and second sieve tanks arranged to separate one or more adsorbable components from a pressurized source gaseous mixture in alternating and opposing pressurization and purging cycles to form the concentrated product gas;means for variably restricting an adjustable flow between the first and second sieve tanks; anda controller in operative communication with the input device and means for variably restricting to selectively control at least two flow paths between the first and second sieve tanks of the means for variably restricting based at least in part on the desired output setting such that the flow between the first and second sieve tanks for at least one output setting is different from the flow between the first and second sieve tanks for at least one other output setting in relation to corresponding pressurization cycles, the controller comprising: logic for opening a first flow path of one of the at least two sieve tank flow paths to allow a bleed flow of product gas from the pressurizing sieve tank to the purging sieve tank to assist regeneration of the purging sieve tank; andlogic for opening a second flow path of another of the at least two sieve tank flow paths to allow an equalization flow between the sieve tanks when the pressurizing sieve tank is near the end of the pressurizing cycle and the purging sieve tank is near the end of the purging cycle. 19. The apparatus of claim 18, the means for variably restricting comprising a plurality of valves to selectively provide an adjustable flow between the first and second sieve tanks. 20. The apparatus of claim 19, the means for variably restricting comprising: a bleed valve in series with a first orifice to selectively provide the bleed flow between the first and second sieve tanks;wherein the controller is in operative communication with the bleed valve to selectively control the bleed valve. 21. The apparatus of claim 20, the means for variably restricting comprising: a pressure equalization valve in parallel with the series combination of the bleed valve and the first orifice to selectively provide the equalization flow between the first and second sieve tanks;wherein the controller is in operative communication with the pressure equalization valve to selectively control the pressure equalization valve. 22. An apparatus for providing a concentrated product gas, comprising: an input device adapted to select a desired output setting for the concentrated product gas from a plurality of output settings;first and second sieve tanks arranged to separate one or more adsorbable components from a pressurized source gaseous mixture in alternating and opposing pressurization and purging cycles to form the concentrated product gas;a bleed valve to selectively provide a bleed flow between the first and second sieve tanks separate from an equalization flow between the first and second sieve tanks;a controller in operative communication with the input device and bleed valve to selectively control the bleed valve based at least in part on the desired output setting such that the flow between the first and second sieve tanks for at least one output setting is different from the flow between the first and second sieve tanks for at least one other output setting in relation to corresponding pressurization cycles, the controller comprising: logic for opening a first flow path of one of the at least two sieve tank flow paths to allow the bleed flow of product gas from the pressurizing sieve tank to the purging sieve tank to assist regeneration of the purging sieve tank; andlogic for opening a second flow path of another of the at least two sieve tank flow paths to allow the equalization flow between the sieve tanks when the pressurizing sieve tank is near the end of the pressurizing cycle and the purging sieve tank is near the end of the purging cycle. 23. The apparatus of claim 22, further comprising: a first orifice in series with the bleed valve between the first and second sieve tanks.
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