IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0284912
(2016-10-04)
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등록번호 |
US-10240721
(2019-03-26)
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발명자
/ 주소 |
- Dawson, Paul A.
- Lomax, Franklin D.
- Lemos, Rafael S.
- Houng, David
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
▼
A dispenser apparatus that includes a first cascade stage having a first connector configured to connect to and disconnect from a first gas storage vessel, and a first conduit connected to the first connector and having a first valve and a first pressure measuring device, and a second cascade stage
A dispenser apparatus that includes a first cascade stage having a first connector configured to connect to and disconnect from a first gas storage vessel, and a first conduit connected to the first connector and having a first valve and a first pressure measuring device, and a second cascade stage having a second connector configured to connect to and disconnect from a second gas storage vessel, and a second conduit connected to the second connector and having a second valve and a second pressure measuring device. A common flow path is fluidly connected to the conduits, and has a dispensing nozzle to connect to a vehicle during refueling. A controller is provided to control the first and/or second valve(s) to perform refueling using gas stored in at least one of the first and second gas storage vessels based on pressure measurements of the first and/or second pressure measuring device(s).
대표청구항
▼
1. A dispenser apparatus for refueling a fuel tank of a hydrogen-fueled vehicle, the dispenser apparatus comprising: a first cascade stage having: a first connector configured to connect to and disconnect from a first gas storage vessel; anda first conduit connected to the first connector, and havin
1. A dispenser apparatus for refueling a fuel tank of a hydrogen-fueled vehicle, the dispenser apparatus comprising: a first cascade stage having: a first connector configured to connect to and disconnect from a first gas storage vessel; anda first conduit connected to the first connector, and having a first valve and a first pressure measuring device;a second cascade stage having: a second connector configured to connect to and disconnect from a second gas storage vessel; anda second conduit connected to the second connector, and having a second valve and a second pressure measuring device;a common flow path fluidly connected to the first conduit and the second conduit, the common flow path having a dispensing nozzle configured to connect to a fuel tank of the hydrogen-fueled vehicle during refueling of the fuel tank; anda controller configured to control the first valve and/or the second valve to perform refueling of the hydrogen-fueled vehicle using gas stored in at least one of the first gas storage vessel and the second gas storage vessel based on pressure measurements of the first pressure measuring device and/or the second pressure measuring device. 2. The dispenser apparatus according to claim 1, wherein the controller is programmed to control the cascade refueling process by detecting pressure of gas within the first gas storage vessel and the second gas storage vessel and controlling the first valve and the second valve based on the detected pressure, andwherein the controller is programmed to refuel the fuel tank of the hydrogen-fueled vehicle by sequencing refueling in a cascade refueling process beginning with refueling using gas from a gas storage vessel selected from the first gas storage vessel and the second gas storage vessel with a lowest detected pressure and successively refueling using gas from another gas storage vessel of the first gas storage vessel and the second gas storage vessel with a successively higher detected pressure. 3. The dispenser apparatus according to claim 1, wherein the first connector and the second connector are configured to allow prefilled gas storage vessels at various gas pressures to be detachably connected thereto, andwherein the controller is configured to perform refueling of the fuel tank of the hydrogen-fueled vehicle using the prefilled gas storage vessels at various gas pressures. 4. The dispenser apparatus according to claim 1, wherein the controller is configured to detect first pressure of gas within the first gas storage vessel and a second pressure of gas within the second gas storage vessel, andwherein the controller is programmed to select an order of use of the first gas storage vessel and the second gas storage vessel to sequence refueling of the fuel tank of the hydrogen-fueled vehicle using gas from the first gas storage vessel and the second gas storage in a cascade refueling process based on the detected first pressure and the detected second pressure. 5. The dispenser apparatus according to claim 4, wherein the controller is configured to detect the first pressure using the first pressure measuring device,wherein the controller is configured to detect the second pressure using the second pressure measuring device, andwherein the controller is configured to sequentially control the first valve and the second valve to perform the cascading refueling process of the fuel tank of the hydrogen-fueled vehicle based on pressure measurements of the first pressure measuring device and the second pressure measuring device. 6. The dispenser apparatus according to claim 4, wherein the controller is configured to determine a connection state of the first gas storage vessel and the second gas storage vessel using data entered by a user. 7. The dispenser apparatus according to claim 1, further comprising: an isolation valve provided along the common flow path; andan additional pressure measuring device provided along the common flow path,wherein the controller is configured to control the isolation valve to control flow to the fuel tank of the hydrogen-fueled vehicle based on a pressure measurement of the additional pressure measuring device. 8. A system for refueling a fuel tank of a hydrogen-fueled vehicle, the system comprising: a dispenser apparatus comprising: a first cascade stage having: a first connector configured to connect to and disconnect from a first gas storage vessel; anda first conduit connected to the first connector, and having a first valve and a first pressure measuring device;a second cascade stage having: a second connector configured to connect to and disconnect from a second gas storage vessel; anda second conduit connected to the second connector, and having a second valve and a second pressure measuring device; anda common flow path fluidly connected to the first conduit and the second conduit, the common flow path having a dispensing nozzle configured to connect to a fuel tank of the hydrogen-fueled vehicle during refueling of the fuel tank; anda controller configured to control the first valve and/or the second valve to perform refueling of the fuel tank of the hydrogen-fueled vehicle using gas stored in at least one of the first gas storage vessel and the second gas storage vessel based on pressure measurements of the first pressure measuring device and/or the second pressure measuring device. 9. A dispenser apparatus for refueling a vehicle, the dispenser apparatus comprising: a plurality of cascade stages, at least two cascade stages of the plurality of cascade stages each having a connector configured to connect to and disconnect from a gas storage vessel, and a conduit connected to the connector and having a valve and a pressure measuring device, the conduits of the at least two cascade stages being fluidly connected to a common flow path, the common flow path having a dispensing nozzle configured to connect to the vehicle during refueling; anda controller configured to control the valves of the at least two cascade stages to perform refueling of the vehicle based on pressure measurements of the pressure measuring device,wherein the controller is configured to detect pressure of gas within the gas storage vessels of the at least two cascade stages, andwherein the controller is programmed to refuel the vehicle by sequencing refueling in a cascade refueling process beginning with refueling using gas from a gas storage vessel selected from the gas storage vessels of the at least two cascade stages with a lowest detected pressure and successively refueling using gas from another gas storage vessel of the gas storage vessels of the at least two cascade stages with a successively higher detected pressure. 10. The dispenser apparatus according to claim 9, wherein the connectors of the at least two cascade stages are configured to allow prefilled gas storage vessels at various gas pressures to be detachably connected thereto, andwherein the controller is configured to perform refueling of the vehicle using the prefilled gas storage vessels at various gas pressures. 11. The dispenser apparatus according to claim 9, wherein the controller is programmed to control an order of the gas storage vessels used in the cascade refueling process based upon the detected pressure of gas within the gas storage vessels. 12. A method of refueling a vehicle, the method comprising: providing a plurality of cascade stages, at least two cascade stages of the plurality of cascade stages each having a connector configured to connect to a gas storage vessel, and a conduit connected to the connector and having a valve and a pressure measuring device, the conduits of the at least two cascade stages being fluidly connected to a common flow path, the common flow path having a dispensing nozzle configured to connect to the vehicle during refueling;detecting pressure of gas within the gas storage vessels of the at least two cascade stages; andcontrolling the valves of the at least two cascade stages to perform refueling of the vehicle based on pressure measurements of the pressure measuring device,wherein the refueling is performed by sequencing refueling in a cascade refueling process beginning with refueling using gas from a gas storage vessel selected from the gas storage vessels of the at least two cascade stages with a lowest detected pressure and successively refueling using gas from another gas storage vessel of the gas storage vessels of the at least two cascade stages with a successively higher detected pressure. 13. The method according to claim 12, wherein the refueling of the vehicle is performed using prefilled gas storage vessels at various gas pressures that are detachably connected via the connector of respective stages of the plurality of cascade stages. 14. The method according to claim 12, wherein a controller is programmed to control an order of the gas storage vessels used in the cascade refueling process based upon the detected pressure of gas within the gas storage vessels. 15. The method according to claim 12, wherein the at least two cascade stages includes a first cascade stage having a first connector configured to connect to a first gas storage vessel, and a second cascade stage having a second connector configured to connect to a second gas storage vessel, andwherein the valves are sequentially controlled to begin the process to refuel the vehicle using whichever storage vessel of the first gas storage vessel and the second storage vessel is determined to have a gas at a lower pressure. 16. The dispenser apparatus according to claim 4, wherein the controller is programmed to reset the order of the first gas storage vessel and the second gas storage vessel used in the cascade refueling process when one or more gas storage vessel is removed, replaced, or added to one or more of the first cascade stage and the second cascade stage based upon subsequent detection of pressure of gas within the first gas storage vessel and the second gas storage vessel. 17. The system according to claim 8, wherein the controller is programmed to control the cascade refueling process by detecting pressure of gas within the first gas storage vessel and the second gas storage vessel and controlling the first valve and the second valve based on the detected pressure, andwherein the controller is programmed to refuel the fuel tank of the hydrogen-fueled vehicle by sequencing refueling in a cascade refueling process beginning with refueling using gas from a gas storage vessel selected from the first gas storage vessel and the second gas storage vessel with a lowest detected pressure and successively refueling using gas from another gas storage vessel of the first gas storage vessel and the second gas storage vessel with a successively higher detected pressure. 18. The system according to claim 8, wherein the controller is configured to detect first pressure of gas within the first gas storage vessel and a second pressure of gas within the second gas storage vessel, andwherein the controller is programmed to select an order of use of the first gas storage vessel and the second gas storage vessel to sequence refueling of the fuel tank of the hydrogen-fueled vehicle using gas from the first gas storage vessel and the second gas storage in a cascade refueling process based on the detected first pressure and the detected second pressure. 19. The system according to claim 18, wherein the controller is programmed to reset the order of the first gas storage vessel and the second gas storage vessel used in the cascade refueling process when one or more gas storage vessel is removed, replaced, or added to one or more of the first cascade stage and the second cascade stage based upon subsequent detection of pressure of gas within the first gas storage vessel and the second gas storage vessel. 20. The dispenser apparatus according to claim 11, wherein the controller is programmed to reset the order of the gas storage vessels used in the cascade refueling process when one or more gas storage vessel is removed, replaced, or added to one or more of the plurality of cascade stages based upon subsequent detection of pressure of gas within the gas storage vessels. 21. The method according to claim 14, wherein the controller is programmed to reset the order of the gas storage vessels used in the cascade refueling process when one or more gas storage vessel is removed, replaced, or added to one or more of the plurality of cascade stages based upon subsequent detection of pressure of gas within the gas storage vessels.
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