Internal combustion engine with auxiliary combustion chamber
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-019/04
F02B-019/00
출원번호
US-0441188
(2006-05-26)
등록번호
US-7263967
(2007-09-04)
우선권정보
JP-2005-171217(2005-06-10)
발명자
/ 주소
Hotta,Isamu
Nakajima,Shinichirou
Ashida,Koichi
Takahashi,Eiji
출원인 / 주소
Nissan Motor Co., Ltd.
대리인 / 주소
Global IP Counselors, LLP
인용정보
피인용 횟수 :
12인용 특허 :
6
초록▼
An internal combustion engine includes a main combustion chamber, an auxiliary combustion chamber, a fuel reforming unit, and a control unit. The auxiliary combustion chamber is configured and arranged to communicate with the main combustion chamber. The fuel reforming unit is configured and arrange
An internal combustion engine includes a main combustion chamber, an auxiliary combustion chamber, a fuel reforming unit, and a control unit. The auxiliary combustion chamber is configured and arranged to communicate with the main combustion chamber. The fuel reforming unit is configured and arranged to reform a fuel to produce a reformed gaseous fuel and a reformed liquid fuel. The control unit is configured to execute control such that the reformed gaseous fuel is supplied to the auxiliary combustion chamber when a first operating condition exists and the reformed liquid fuel is supplied to the main combustion chamber when a second operating condition exists.
대표청구항▼
What is claimed is: 1. An internal combustion engine comprising: a main combustion chamber; an auxiliary combustion chamber that is communicated with the main combustion chamber; a fuel supplying mechanism including a fuel reforming unit configured and arranged to reform a fuel to produce a reforme
What is claimed is: 1. An internal combustion engine comprising: a main combustion chamber; an auxiliary combustion chamber that is communicated with the main combustion chamber; a fuel supplying mechanism including a fuel reforming unit configured and arranged to reform a fuel to produce a reformed gaseous fuel and a reformed liquid fuel; and a control unit configured to control the fuel supplying mechanism to selectively supply the reformed gaseous fuel to the auxiliary combustion chamber when a first operating condition of the internal combustion engine exists and to selectively supply the reformed liquid fuel to the main combustion chamber bypassing the auxiliary chamber when a second operating condition of the internal combustion engine exists that is different from the first operating condition. 2. The internal combustion engine recited in claim 1, wherein the fuel supplying mechanism further includes a reformed gaseous fuel storage unit disposed downstream of the fuel reforming unit, and configured and arranged to store the reformed gaseous fuel produced by the fuel reforming unit. 3. The internal combustion engine recited in claim 1, wherein the fuel supplying mechanism further includes a reformed liquid fuel storage unit disposed downstream of the fuel reforming unit, and configured and arranged to store the reformed liquid fuel produced by the fuel reforming unit. 4. The internal combustion engine recited in claim 3, wherein the fuel supplying mechanism further includes a fuel storage unit configured and arranged to store the fuel, a reformed liquid fuel supplying unit configured and arranged to selectively supply the reformed liquid fuel stored in the reformed liquid fuel storage unit to the main combustion chamber, and a fuel supplying unit configured and arranged to selectively supply the fuel stored in the fuel storage unit to the main combustion chamber. 5. The internal combustion engine recited in claim 4, wherein the control unit is configured to control the reformed liquid fuel supplying unit and the fuel supplying unit of the fuel supplying mechanism to switch between a first injection control state in which the reformed liquid fuel supplying unit supplies reformed liquid fuel to the main combustion chamber and a second injection control state in which the fuel supplying unit supplies the fuel to the main combustion chamber. 6. The internal combustion engine recited in claim 1, wherein the fuel reforming unit is configured to reform the fuel by creating a plasma discharge in the fuel. 7. The internal combustion engine recited in claim 1, wherein the fuel reforming unit is configured to reform the fuel by shining laser light into the fuel. 8. The internal combustion engine recited in claim 1, wherein the fuel reforming unit further includes a partial oxidation reforming section configured and arranged to execute a partial oxidation reforming reaction between the fuel and fresh air to produce the reformed gaseous fuel and a first gas composed of the reformed liquid fuel in gaseous form, and a condensing section disposed downstream of the partial oxidation reforming section, and configured and arranged to condense the first gas to change the first gas into the reformed liquid fuel. 9. The internal combustion engine recited in claim 1, wherein the fuel reforming unit further includes an exhaust gas reforming section configured and arranged to execute an exhaust gas reforming reaction between the fuel and exhaust gas to produce the reformed gaseous fuel and a first gas composed of the reformed liquid fuel in gaseous form; and a condensing section arranged downstream of the exhaust gas reforming section, and configured and arranged to condense the first gas to change the first gas into the reformed liquid fuel. 10. The internal combustion engine recited in claim 1, wherein the fuel reforming unit further includes an autothermal reforming section configured and arranged to execute an autothermal reforming reaction between the fuel, exhaust gas, and fresh air to produce the reformed gaseous fuel and a first gas composed of the reformed liquid fuel in gaseous form; and a condensing section arranged downstream of the autothermal reforming section, and configured and arranged to condense the first gas to change the first gas into the reformed liquid fuel. 11. An internal combustion engine comprising: a main combustion chamber; an auxiliary combustion chamber that is communicated with the main combustion chamber; a fuel supplying mechanism including a fuel reforming unit configured and arranged to reform a fuel to produce a reformed gaseous fuel and a reformed liquid fuel, the fuel reforming unit further configured and arranged to produce the reformed gaseous fuel that contains hydrogen as a main component; and a control unit configured to control the fuel supplying mechanism to selectively supply the reformed gaseous fuel to the auxiliary combustion chamber when a first operating condition exists and to selectively supply the reformed liquid fuel to the main combustion chamber when a second operating condition exists, the control unit being further configured to determine that the first operating condition exists when the internal combustion engine is operating in a low-load and low-speed engine operating region. 12. The internal combustion engine recited in claim 11, wherein the control unit is configured to control the fuel supplying mechanism such that the smaller an engine load is, the larger an amount of the reformed gaseous fuel supplied to the auxiliary combustion chamber becomes when the first operating condition exists. 13. The internal combustion engine recited in claim 12, wherein the control unit is configured to determine that the second operating condition exists when the internal combustion engine is operating in a high-load and low-speed engine operating region; and the fuel reforming unit is configured and arranged to produce the reformed liquid fuel that has a higher octane value than the fuel prior to the reformation. 14. The internal combustion engine recited in claim 13, wherein the control unit is configured to control the fuel supplying mechanism such that the lower an engine speed is, the larger an amount of the reformed liquid fuel supplied to the main combustion chamber becomes when the second operating condition exists. 15. The internal combustion engine recited in claim 13, wherein the control unit is configured to control the fuel supplying mechanism such that the higher the engine load is, the larger an amount of the reformed liquid fuel supplied to the main combustion chamber becomes when the second operating condition exists. 16. An internal combustion engine comprising: a main combustion chamber; an auxiliary combustion chamber that is communicated with the main combustion chamber; a fuel supplying mechanism including a fuel reforming unit configured and arranged to reform a fuel to produce a reformed gaseous fuel and a reformed liquid fuel, the fuel reforming unit further configured and arranged to produce the reformed liquid fuel that has a higher octane value than the fuel prior to the reformation; and a control unit configured to control the fuel supplying mechanism to selectively supply the reformed gaseous fuel to the auxiliary combustion chamber when a first operating condition exists and to selectively supply the reformed liquid fuel to the main combustion chamber when a second operating condition exists, the control unit being further configured to determine that the second operating condition exists when the internal combustion engine is operating in a high-load and low-speed engine operating region. 17. The internal combustion engine recited in claim 16, wherein the control unit is configured to control the fuel supplying mechanism such that the lower an engine speed is, the larger an amount of the reformed liquid fuel supplied to the main combustion chamber becomes when the second operating condition exists. 18. The internal combustion engine recited in claim 16, wherein the control unit is configured to control the fuel supplying mechanism such that the higher an engine load is, the larger an amount of the reformed liquid fuel supplied to the main combustion chamber becomes when the second operating condition exists. 19. An internal combustion engine comprising: means for forming a main combustion chamber and an auxiliary combustion chamber that is communicated with the main combustion chamber; fuel reforming means for reforming a fuel to produce a reformed gaseous fuel and a reformed liquid fuel; and control means for selectively supplying the reformed gaseous fuel to the auxiliary combustion chamber when a first operating condition of the internal combustion engine exists, and for selectively supplying the reformed liquid fuel to the main combustion chamber bypassing the auxiliary chamber when a second operating condition of the internal combustion engine exists that is different from the first operating condition. 20. A method of controlling an internal combustion engine comprising: providing a main combustion chamber and an auxiliary combustion chamber that is communicated with the main combustion chamber; reforming a fuel to produce a reformed gaseous fuel and a reformed liquid fuel; selectively supplying the reformed gaseous fuel to the auxiliary combustion chamber when a first operating condition of the internal combustion engine exists; and selectively supplying the reformed liquid fuel to the main combustion chamber bypassing the auxiliary chamber when a second operating condition of the internal combustion engine exists that is different from the first operating condition.
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이 특허에 인용된 특허 (6)
Brown, Christopher Stewart; Kirstein, Frederick Jacobus; Martin, Paul Francis; Wong, Harold Troy, Compact plasma-based fuel reformer.
Daniel, Michael J.; Smaling, Rudolf M.; Zwanzig, Kurt D.; Murrah, M. Lee; Bauer, Shawn D., Plasmatron having an air jacket and method for operating the same.
Leone, Thomas G.; Pursifull, Ross Dykstra; Surnilla, Gopichandra; Shelby, Michael H.; Ulrey, Joseph Norman; McCabe, Robert Walter, Method for operating a vehicle with a fuel reformer.
Leone, Thomas G.; Pursifull, Ross Dykstra; Surnilla, Gopichandra; Shelby, Michael H.; Ulrey, Joseph Norman; McCabe, Robert Walter, Method for operating a vehicle with a fuel reformer.
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