IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0754783
(2004-01-09)
|
발명자
/ 주소 |
- Hall, Ivan Keith
- Gish, Justin Charles
|
출원인 / 주소 |
- Harsco Technologies Corporation
|
대리인 / 주소 |
Eckert Seamans Cherin &
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
6 |
초록
▼
A liquid natural gas filling system structured to store a cryogenic fluid at a low pressure and fill a use vessel at a high pressure. The filling system includes a first, low pressure vessel, at least one second, high pressure vessel, a plurality of conduits, each conduit in the plurality having a v
A liquid natural gas filling system structured to store a cryogenic fluid at a low pressure and fill a use vessel at a high pressure. The filling system includes a first, low pressure vessel, at least one second, high pressure vessel, a plurality of conduits, each conduit in the plurality having a valve, extending between, and in fluid communication within the first, low pressure vessel and the at least one second, high pressure vessel, a pressure building means coupled to the at least one second, high pressure vessel and structured to raise the pressure of a cryogenic liquid within the at least one second, high pressure vessel, and an outlet nozzle structured to be coupled to a use vessel, the outlet nozzle coupled via the plurality of conduits to, and in fluid communication with, the first, low pressure vessel and the second, high pressure vessel. The filling system is structured so that a cryogenic liquid may be stored in the first, low pressure vessel at a low pressure. The cryogenic liquid at a low pressure may further be transferred to the at least one second, high pressure vessel via the plurality of conduits. The pressure of the cryogenic liquid at a low pressure in the at least one second, high pressure vessel may be increased to a high pressure by actuating the pressure building means. Thus, the cryogenic liquid at a high pressure in the at least one second, high pressure vessel may be transferred from the at least one second, high pressure vessel to a use vessel via the plurality of conduits and the nozzle.
대표청구항
▼
1. A liquid natural gas filling system comprising:a first, low pressure vessel;a second, high pressure vessel;a third, high pressure vessel;a plurality of conduits, each conduit in said plurality having a valve, extending between, and in fluid communication within said first, low pressure vessel and
1. A liquid natural gas filling system comprising:a first, low pressure vessel;a second, high pressure vessel;a third, high pressure vessel;a plurality of conduits, each conduit in said plurality having a valve, extending between, and in fluid communication within said first, low pressure vessel and said at least one second, high pressure vessel;a pressure building means coupled to said at least one second, high pressure vessel and structured to raise the pressure of a cryogenic liquid within said at least one second, high pressure vessel;an outlet nozzle structured to be coupled to a use vessel, said outlet nozzle coupled via said plurality of conduits to, and in fluid communication with, said first, low pressure vessel, said second, high pressure vessel and said third, high pressure vessel; andwhereby a cryogenic liquid may be stored in said first, low pressure vessel at a low pressure, said cryogenic liquid at a low pressure may be further transferred to either said second, high pressure vessel or said third, high pressure vessel via said plurality of conduits, the pressure of said cryogenic liquid at a low pressure in said second, high pressure vessel or said third, high pressure vessel may be increased to a high pressure by actuating said pressure building means, and said cryogenic liquid at a high pressure in said second, high pressure vessel or said third, high pressure vessel may be transferred from said second, high pressure vessel or said third, high pressure to a use vessel via said plurality of conduits and said nozzle.2. The liquid natural gas filling system of claim 1, wherein said pressure building means is a vaporizer.3. The liquid natural gas filling system of claim 2, further comprising a pump assembly coupled to one conduit of said plurality of conduits and structured to accelerate the flow of fluid through said conduits.4. The liquid natural gas filling system of claim 3, wherein said pump assembly is disposed on said nozzle conduit.5. The liquid natural gas filling system of claim 2, wherein said plurality of conduits includes:a first, low pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said first, low pressure vessel;a second, high pressure vessel liquid inlet conduit coupled to, and in fluid communication with, said second, high pressure vessel;a second, high pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said second, high pressure vessel;said first, low pressure vessel liquid outlet conduit and said second, high pressure vessel liquid outlet conduit coupled, and in fluid communication, thereby forming a nozzle conduit; andsaid nozzle conduit coupled to, and in fluid communication with, said nozzle;said nozzle conduit coupled to, and in fluid communication with, said second, high pressure vessel liquid inlet conduit.6. The liquid natural gas filling system of claim 5, wherein said plurality of conduits further includes:a second, high pressure vessel vapor outlet conduit coupled to, and in fluid communication with, said second, high pressure vessel and said vaporizer; anda vaporizer conduit coupled to, and in fluid communication with, said second, high pressure vessel liquid outlet conduit and said vaporizer.7. The liquid natural gas filling system of claim 6, wherein said plurality of conduits includes:a third, high pressure vessel liquid inlet conduit coupled to, and in fluid communication with, said third, high pressure vessel and said second, high pressure vessel liquid inlet conduit;a third, high pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said at least one second, high pressure vessel and said second, high pressure vessel liquid outlet conduit; andsaid third, high pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said nozzle conduit.8. The liquid natural gas filling system of claim 1, wherein said plurality of conduits includes:a first, low pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said first, low pressure vessel;a second, high pressure vessel liquid inlet conduit coupled to, and in fluid communication with, said second, high pressure vessel;a second, high pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said second, high pressure vessel;said first, low pressure vessel liquid outlet conduit and said second, high pressure vessel liquid outlet conduit coupled to, and in fluid communication, thereby forming a nozzle conduit; andsaid nozzle conduit coupled to, and in fluid communication with, said nozzle;said nozzle conduit coupled to, and in fluid communication with, said second, high pressure vessel liquid inlet conduit.9. The liquid natural gas filling system of claim 8, wherein said plurality of conduits further includes:a second, high pressure vessel vapor inlet conduit coupled to, and in fluid communication with, said second, high pressure vessel and said vaporizer; anda vaporizer conduit coupled to, and in fluid communication with, said second, high pressure vessel liquid outlet conduit and said vaporizer.10. The liquid natural gas filling system of claim 9, wherein said pump assembly is disposed on said nozzle conduit.11. The liquid natural gas filling system of claim 10, wherein said plurality of conduits includes:a third, high pressure vessel liquid inlet conduit coupled to, and in fluid communication with, said third, high pressure vessel and said second, high pressure vessel liquid inlet conduit;a third, high pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said at least one second, high pressure vessel and said second, high pressure vessel liquid outlet conduit; andsaid third, high pressure vessel liquid outlet conduit coupled to, and in fluid communication with, said nozzle conduit.12. The liquid natural gas filling system of claim 1, further comprising an electronic control system, said electronic control system coupled to each valve on said plurality of conduits and structured to move said valves from a first, closed position to a second, open position.13. A method of filling a vehicle fuel tank with a cryogenic liquid comprising the steps of:providing a first, low pressure vessel containing a cryogenic liquid at a low pressure, at least one second, high pressure vessel, a plurality of conduits, each conduit in said plurality having a valve, extending between, and in fluid communication within said first, low pressure vessel and said at least one second, high pressure vessel, a pressure building means coupled to said at least one second, high pressure vessel and structured to raise the pressure of a cryogenic liquid within said at least one second, high pressure vessel, and an outlet nozzle structured to be coupled to said vehicle fuel tank, said outlet nozzle coupled via said plurality of conduits to, and in fluid communication with, said first, low pressure vessel and said second, high pressure vessel;transferring a quantity of cryogenic liquid at a low pressure from said first, low pressure vessel to said at least one second, high pressure vessel;raising the pressure of the cryogenic liquid in said at least one second, high pressure vessel by actuating said pressure building means;filling said vehicle fuel tank by transferring said cryogenic liquid at a high pressure from said at least one second, high pressure vessel to said vehicle fuel tank;providing a third, high pressure vessel coupled via said conduits to said first, low pressure assembly, said vaporizer, and said nozzle;transferring a quantity of cryogenic liquid at a low pressure from said first, low pressure vessel to said third, high pressure vessel;raising the pressure of the cryogenic liquid in said third, high pressure vessel by actuating said pressure building means; andfilling another vehicle fuel tank by transferring said cryogenic liquid at a high pressure from said third, high pressure vessel to said vehicle fuel tank.14. The method of claim 13 wherein, prior to said step of filling said vehicle fuel tank, the method includes the step of:transferring a small quantity of low pressure cryogenic fluid from said first, low pressure vessel to said vehicle fuel tank.15. The method of claim 13 wherein, prior to said step of transferring a quantity of cryogenic liquid at a low pressure from said first, low pressure vessel to said at least one second, high pressure vessel, the method includes the step of:venting fluid from said at least one second, high pressure vessel.16. The method of claim 15 wherein fluid vented from said at least one second, high pressure vessel is transferred to said first, low pressure vessel.17. The method of claim 13 wherein, said method includes the further steps of:providing a pump assembly structured to increase the speed of fluid transfer; andpumping said cryogenic liquid at a high pressure from said at least one second, high pressure vessel to said vehicle fuel tank.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.