Compressed gas stream introduction method and filling station
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B65B-001/04
출원번호
US-0388451
(2003-03-17)
발명자
/ 주소
White, Norman Henry
출원인 / 주소
Praxair Technology, Inc.
대리인 / 주소
Rosenblum David M.
인용정보
피인용 횟수 :
13인용 특허 :
10
초록▼
A method and filling station are disclosed for introducing a compressed gas stream into one or more vessels such that upper and lower temperature material limits are not exceeded and preferably such vessels are not over or under filled by controlling the filling temperature of the compressed gas str
A method and filling station are disclosed for introducing a compressed gas stream into one or more vessels such that upper and lower temperature material limits are not exceeded and preferably such vessels are not over or under filled by controlling the filling temperature of the compressed gas stream. The compressed stream is produced by compressing a stream composed of a vapor phase located within a cryogenic liquid storage tank. The density of the vapor phase is held constant by adding heat to a liquid phase, preferably by addition of a subsidiary stream composed of the compressed gas stream. The filling temperature of the compressed gas stream is controlled by adding heat to the compressed gas stream by a trim heater or to the vapor stream to be compressed by recirculating part of the compressed gas stream to an inlet of the compressor.
대표청구항▼
1. A method of introducing a compressed gas stream into at least one vessel with a controlled fill temperature, said method comprising:storing a cryogen in a cryogenic, liquid storage tank in a vapor phase and liquid phase;compressing a vapor phase stream to produce a compressed gas stream;selective
1. A method of introducing a compressed gas stream into at least one vessel with a controlled fill temperature, said method comprising:storing a cryogen in a cryogenic, liquid storage tank in a vapor phase and liquid phase;compressing a vapor phase stream to produce a compressed gas stream;selectively adding heat to the liquid phase such that a pressure within the vapor phase is held constant and therefore said vapor phase is maintained at constant density;introducing at least part of the compressed gas stream into the at least one vessel; andcontrolling a fill temperature of the compressed gas stream upon introduction thereof into said at least one vessel to be at least about equal to said controlled filling temperature by selectively adding further heat to at least one of the vapor phase stream prior to compression and the compressed gas stream. 2. The method of claim 1, wherein said heat is added to the liquid phase by selectively introducing a subsidiary stream, composed of a remaining part of the compressed gas stream, into the liquid phase. 3. The method of claim 2, wherein:first and second subsidiary streams are formed from said remaining part of said compressed gas stream;said subsidiary stream is the first subsidiary stream; andsaid second subsidiary stream is selectively introduced into an inlet of a compressor used in compressing said vapor phase stream to add said further heat to said vapor phase stream. 4. The method of claim 2, wherein said further heat is added to the compressed gas stream from a thermal ballast and by-pass stream, by-passing said thermal ballast and said flow of said by-pass stream is controlled to selectively control said further heat added to said compressed gas stream and therefore said fill temperature, the thermal ballast being heated to at least partially store the further heat prior to introduction of the least part of the compressed gas stream into the at least one vessel. 5. The method of claim 2, wherein said further heat is added to the compressed gas stream with a trim heater and flow of a by-pass stream, by-passing said trim heater and said flow of said by-pass stream is controlled to selectively control said further heat added to said compressed gas stream and therefore said fill temperature. 6. The method of claim 1 or claim 2 or claim 3 or claim 4 or claim 5, wherein:said vapor phase stream is compressed in a compressor;prior to the introduction of the compressed gas stream into said at least one vessel, the compressed gas stream is recirculated from the compressor to the liquid phase until the compressed gas temperature at an outlet of the compressor is equal to a compressor delivery set point temperature; andafter said compressed gas temperature has reached said compressor delivery set point temperature, the least part of the compressed gas stream into the at least one vessel and flow of the subsidiary stream to be introduced into the liquid phase is adjusted so that said pressure is held constant. 7. The method of claim 6, wherein said compressed gas stream is hydrogen and said at least one vessel is a vehicle fuel tank. 8. The method of claim 7, wherein said vehicle fuel tank is formed of a carbon fiber material. 9. The method of claim 8, wherein a time period to completely fill said vehicle fuel tank is between about 3 and about 5 minutes and a pressure within said vehicle fuel tank when completely filled is between about 5,000 psi and about 10,000 psi. 10. A filling station for introducing a compressed gas stream into at least one vessel at a controlled fill temperature, said filling station comprising:a cryogenic, liquid storage tank for storing a cryogen as a vapor phase located above a liquid phase;a compressor for compressing a vapor phase stream of said vapor phase to produce said compressed gas stream;an outlet conduit for introducing at least part of said compressed gas stream into said at least one vessel;a recirculation conduit connected between the storage tank and an outlet of the compressor such that a subsidiary stream composed of at least a portion of a remaining part of the compressed gas stream, is able to be introduced into said liquid phase, thereby to add heat to said liquid phase and thereby to pressurize said vapor phase;a valve to control flow within said recirculation conduit;a pressure sensor to sense pressure within the vapor phase;a controller responsive to the sensed pressure to control said valve such that said pressure is held constant and therefore said density of said vapor phase; anda trim heater to add further heat to said compressed gas stream;a by-pass line by-passing said trim heater; anda by-pass valve within said by-pass line to control flow within the by-pass line and therefore, the fill temperature to be at least about equal to the controlled fill temperature. 11. A filling station for introducing a compressed gas stream into at least one vessel with a controlled fill temperature, said filling station comprising:a cryogenic liquid storage tank for storing a cryogen as a vapor phase located above a liquid phase;a compressor for compressing a vapor phase stream of said vapor phase to produce a compressed gas stream;an outlet conduit for introducing at least part of said compressed gas stream and therefore, said compressed gas, into said at least one vessel;first and second recirculation conduits connected to an outlet of the compressor;the first recirculation conduit connected to said storage tank such that a first subsidiary stream composed of at least a portion of a remaining part of the compressed gas stream, is able to be introduced into said liquid phase to add heat to said liquid phase and thereby pressurize said vapor phase;the second recirculation conduit connected to an inlet of the compressor to recirculate a second subsidiary stream composed of another portion of a remaining part of said compressed gas stream to an inlet of said compressor so that further heat is added to said vapor phase stream;a first valve to control flow within said first recirculation conduit;a pressure sensor to sense pressure within the vapor phase;a controller responsive to the sensed pressure to control said first valve such that said pressure is constant and therefore said density of said vapor phase; anda second valve to control flow within said second conduit and therefore a filling temperature of said compressed gas stream to be at least about equal to the controlled fill temperature. 12. The filling station of claim 10 or claim 11, wherein said compressed gas is hydrogen and said at least one vessel is a vehicle fuel tank. 13. The filling station of claim 12, wherein said storage tank is located underground and beneath said compressor.
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이 특허에 인용된 특허 (10)
Notaro John ; Beckinghausen ; Jr. Erwin Schulze ; Davidson Bruce Hall ; DeBriae Thomas Edward, Cryogenic fluid cylinder filling system.
Goode John E. (Arlington TX) Hoyle Michael D. (Arlington TX) Lance Raymond E. (Fort Worth TX), Liquid natural gas and compressed natural gas total fueling system.
Schuck Thomas W. (Easton PA) VanOmmeren James (New Tripoli PA), Method and apparatus for delivering a continuous quantity of gas over a wide range of flow rates.
Kooy Richard John ; Conrad Mervyn Ladd ; Forgash David John ; Korzonas Raymond ; Neuhalfen Bryan Patrick ; Rhoades George D. ; Sudduth Jack Wayne, Method and apparatus for fueling vehicles with liquefied cryogenic fuel.
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