Hydrogen fuel dispenser with pre-cooling circuit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B65B-001/20
F17C-013/02
F17C-005/00
출원번호
US-0154339
(2014-01-14)
등록번호
US-9464762
(2016-10-11)
발명자
/ 주소
Mathison, Steve
출원인 / 주소
Honda Motor Co., Ltd.
대리인 / 주소
Rankin, Hill & Clark LLP
인용정보
피인용 횟수 :
2인용 특허 :
32
초록▼
A hydrogen fuel dispenser includes a pre-cooling circuit, a hydrogen fuel storage for storing hydrogen fuel, a nozzle for dispensing hydrogen fuel to a receptacle, and a fueling line connecting the hydrogen fuel storage to the nozzle for communicating hydrogen fuel from the hydrogen fuel storage to
A hydrogen fuel dispenser includes a pre-cooling circuit, a hydrogen fuel storage for storing hydrogen fuel, a nozzle for dispensing hydrogen fuel to a receptacle, and a fueling line connecting the hydrogen fuel storage to the nozzle for communicating hydrogen fuel from the hydrogen fuel storage to the nozzle. The pre-cooling circuit is provided to cool hydrogen fuel in the fueling line, and includes a pre-cooling line connected to the fueling line downstream from the hydrogen fuel storage, and a flow-path selector provided at a connection between the fueling line and the pre-cooling line. The flow-path selector selectively: blocks hydrogen fuel flow between the fueling line and the pre-cooling line while opening hydrogen fuel flow between the fueling line and a nozzle line of the nozzle; and opens hydrogen fuel flow between the fueling line and the pre-cooling line.
대표청구항▼
1. A hydrogen fuel dispenser, comprising: a nozzle for engaging and dispensing hydrogen fuel to a receptacle, the nozzle including a nozzle line, disposed within a nozzle body, through which hydrogen fuel is dispensed to the receptacle;a fueling line connecting the nozzle line to a hydrogen fuel sto
1. A hydrogen fuel dispenser, comprising: a nozzle for engaging and dispensing hydrogen fuel to a receptacle, the nozzle including a nozzle line, disposed within a nozzle body, through which hydrogen fuel is dispensed to the receptacle;a fueling line connecting the nozzle line to a hydrogen fuel storage for communicating hydrogen fuel from the hydrogen fuel storage to the nozzle line, the fueling line connecting to the nozzle line within the nozzle body;a pre-cooling line connected to the fueling line downstream from the hydrogen fuel storage, within the nozzle body, for pre-cooling hydrogen fuel; anda flow-path selector provided at a connection between the fueling line and the precooling line within the nozzle body, the flow-path selector selectively: blocking hydrogen fuel flow between the fueling line and the pre-cooling line while opening hydrogen fuel flow between the fueling line and the nozzle line; and opening hydrogen fuel flow between the fueling line and the pre-cooling line; anda pre-cooling controller detecting a predetermined hydrogen fuel dispenser condition, and controlling the flow-path selector to: open hydrogen fuel flow between the fueling line and the pre-cooling line when the predetermined hydrogen fuel dispenser condition is detected; and otherwise block hydrogen fuel flow between the fueling line and the pre-cooling line while opening hydrogen fuel flow between the fueling line and the nozzle line,wherein the pre-cooling controller comprises:a fueling operation detector detecting discontinuation of a fueling operation of dispensing hydrogen fuel to the receptacle based on inputs received from at least one of: a flow meter in at least one of the fueling line and the nozzle; and a sensor detecting engagement and disengagement of the nozzle with the receptacle; anda timer configured to detect passage of a predetermined time following discontinuation of the fueling operation without resumption of the fueling operation, wherein the predetermined hydrogen fuel dispenser condition is detected by the pre-cooling controller when passage of the predetermined time is detected by the timer, anddiscontinuation of the fueling operation is detected by the fueling operation detector when dispensing of hydrogen fuel to the receptacle ceases. 2. The hydrogen fuel dispenser according to claim 1, comprising a temperature sensor disposed in the fueling line at a position between the hydrogen fuel storage and the nozzle, the temperature sensor sensing a temperature of hydrogen fuel in the fueling line and communicating with the pre-cooling controller, wherein the predetermined hydrogen fuel dispenser condition is detected by the pre-cooling controller when the temperature of hydrogen fuel in the fueling line is sensed by the temperature sensor to exceed a predetermined temperature. 3. The hydrogen fuel dispenser according to claim 1, comprising: a catch tank provided in the pre-cooling line, the catch tank holding hydrogen fuel at a low pressure. 4. The hydrogen fuel dispenser according to claim 3, comprising: a compressor provided in the pre-cooling line at a position downstream from the catch tank, the compressor compressing hydrogen fuel from the catch tank for high pressure storage. 5. The hydrogen fuel dispenser according to claim 4, wherein the pre-cooling line connects the fueling line to the hydrogen fuel storage with the catch tank and the compressor disposed between the fueling line and the hydrogen fuel storage, the catch tank holding hydrogen fuel at low pressure, and the compressor compressing hydrogen fuel from the catch tank for high pressure storage in the hydrogen fuel storage. 6. The hydrogen fuel dispenser according to claim 1, wherein the flow-path selector and the connection between the fueling line and the pre-cooling line are disposed in the nozzle. 7. The hydrogen fuel dispenser according to claim 1, wherein the pre-cooling line connects the fueling line with the hydrogen fuel storage such that hydrogen fuel flows through the pre-cooling line from the fueling line to the hydrogen fuel storage. 8. The hydrogen fuel dispenser according to claim 1, wherein the pre-cooling line communicates hydrogen fuel back into the fueling line at a position upstream from the connection between the fueling line and the pre-cooling line. 9. A pre-cooling controller for a hydrogen fuel dispenser having a fueling line connecting a hydrogen fuel storage and a nozzle line of a nozzle for dispensing hydrogen fuel to a receptacle, a pre-cooling circuit including a pre-cooling line connected to the fueling line at a position downstream from the hydrogen fuel storage, and a flow-path selector provided at a connection between the fueling line and the precooling line, the flow-path selector selectively: blocking hydrogen fuel flow between the fueling line and the pre-cooling line while opening hydrogen fuel flow between the fueling line and the nozzle line; and opening hydrogen fuel flow between the fueling line and the pre-cooling line, the pre-cooling controller comprising: a condition detector detecting a predetermined hydrogen fuel dispenser condition;a fueling operation detector detecting discontinuation of a fueling operation of dispensing hydrogen fuel to the receptacle based on inputs received from at least one of: a flow meter in at least one of the fueling line and the nozzle; and a sensor detecting engagement and disengagement of the nozzle with the receptacle, wherein discontinuation of the fueling operation occurs when dispensing of hydrogen fuel to the receptacle ceases;a timer detecting passage of a predetermined time following discontinuation of the fueling operation prior to resumption of the fueling operation; anda flow-path selector controller controlling the flow-path selector to: open hydrogen fuel flow between the fueling line and the pre-cooling line when the predetermined hydrogen fuel dispenser condition is detected by the condition detector; and otherwise block hydrogen fuel flow between the fueling line and the pre-cooling line while opening hydrogen fuel flow between the fueling line and the nozzle line, wherein the condition detector detects the predetermined hydrogen fuel dispenser condition when at least discontinuation of the fueling operation is detected by the fueling operation detector and passage of the predetermined time is detected by the timer. 10. A method for pre-cooling hydrogen fuel in a hydrogen fuel dispenser that includes a pre-cooling circuit in the hydrogen fuel dispenser, the pre-cooling circuit including a pre-cooling line connected to a fueling line of the hydrogen fuel dispenser at a position on the fueling line downstream from a hydrogen fuel storage and upstream from a nozzle line of a nozzle for dispensing hydrogen fuel to a receptacle, and a flow-path selector provided at a connection between the pre-cooling line and the fueling line, comprising: detecting whether a predetermined hydrogen fuel dispenser condition exists by: detecting discontinuation of a fueling operation of dispensing hydrogen fuel to the receptacle;detecting passage of a predetermined time following discontinuation of the fueling operation without resumption of the fueling operation; anddetecting the predetermined hydrogen fuel dispenser condition when passage of the predetermined time is detected;controlling the flow-path selector to open hydrogen fuel flow between the fueling line and the pre-cooling line when the predetermined hydrogen fuel dispenser condition is detected to exist; andotherwise controlling the flow-path selector to block hydrogen fuel flow between the fueling line and the pre-cooling line while opening hydrogen fuel flow between the fueling line and the nozzle line. 11. The method according to claim 10, further comprising: compressing hydrogen fuel in the pre-cooling line and returning the compressed hydrogen fuel in the pre-cooling line to the hydrogen fuel storage.
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이 특허에 인용된 특허 (32)
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Miller Charles E. (Boulder CO) Waers John (Longmont CO) Magin James A. (Longmont CO) Custer Randal L. (Longmont CO), Method and apparatus for dispensing natural gas.
Miller Charles E. (Boulder CO) Waers John F. (Longmont CO) Magin James A. (Longmont CO) Custer Randal L. (Longmont CO) Lopez John T. (Boulder CO), Method and apparatus for dispensing natural gas.
Bavarian, Farshad Alexander; Benedetto, Dennis J.; Brady, John Michael; Casey, Daniel Glenn; Kenefake, Dean Alan; Perdue, Jr., Charles Franklin; Sun, Hongqiao Bruce, Method for managing storage of gaseous hydrogen.
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