IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0496218
(2006-07-31)
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등록번호 |
US-7490466
(2009-02-17)
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발명자
/ 주소 |
- Robel,Wade J.
- Bailey,Brett M.
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출원인 / 주소 |
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대리인 / 주소 |
Finnegan, Henderson, Farabow, Garrett & Dunner
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인용정보 |
피인용 횟수 :
10 인용 특허 :
24 |
초록
▼
A power source is provided for use with an exhaust gas recirculation and selective catalytic reduction system. The power source has a main air-intake passage fluidly connected to a first air-intake passage and a second air-intake passage. A first cylinder group may be fluidly connected to the first
A power source is provided for use with an exhaust gas recirculation and selective catalytic reduction system. The power source has a main air-intake passage fluidly connected to a first air-intake passage and a second air-intake passage. A first cylinder group may be fluidly connected to the first air-intake passage and a first exhaust passage, wherein the first exhaust passage may include an ammonia-producing catalyst configured to convert at least a portion of a fluid in the first exhaust passage into ammonia. Further, a second cylinder group may be fluidly connected to the second air-intake passage and a second exhaust passage. A third cylinder group may be fluidly connected to the second air-intake passage. The power source may have a recirculation loop that includes the second air-intake passage and the third cylinder group. The power source may also have a merged exhaust passage configured to connect the first exhaust passage and the second exhaust passage to facilitate a reaction between ammonia and NOx to at least partially remove NOx from the merged exhaust passage.
대표청구항
▼
What is claimed is: 1. A power source for use with an exhaust gas recirculation and selective catalytic reduction system, comprising: a main air-intake passage fluidly connected to a first air-intake passage and a second air-intake passage; a first cylinder group fluidly connected to the first air-
What is claimed is: 1. A power source for use with an exhaust gas recirculation and selective catalytic reduction system, comprising: a main air-intake passage fluidly connected to a first air-intake passage and a second air-intake passage; a first cylinder group fluidly connected to the first air-intake passage and a first exhaust passage, wherein the first exhaust passage includes an ammonia-producing catalyst configured to convert at least a portion of a fluid in the first exhaust passage into ammonia; a second cylinder group fluidly connected to the second air-intake passage and a second exhaust passage; a third cylinder group fluidly connected to the second air-intake passage; a recirculation loop that includes the second air-intake passage and the third cylinder group; and a merged exhaust passage configured to connect the first exhaust passage and the second exhaust passage to facilitate a reaction between ammonia and NOx to at least partially remove NOx from the merged exhaust passage. 2. The power source of claim 1, wherein the recirculation loop includes a filter. 3. The power source of claim 1, wherein the first air-intake passage includes a valve. 4. The power source of claim 1, wherein a cooler is operably associated with at least one of the main air-intake passage and the recirculation loop. 5. The power source of claim 4, wherein the cooler includes at least one of an air-to-air cooler or a water cooler. 6. The power source of claim 5, wherein the air-to-air cooler further includes an air-cooling passage fluidly connected to the main air-intake passage and the second exhaust passage. 7. The power source of claim 1, wherein the recirculation loop is fluidly connected to an exhaust shunt fluidly connected to the second exhaust passage. 8. The power source of claim 7, wherein the exhaust shunt includes a valve. 9. The power source of claim 1, wherein the power source further includes a forced-induction system operably associated with at least one of the main air-intake passage, the first air-intake passage, the second air-intake passage, the first exhaust passage, the second exhaust passage, the recirculation loop, or the merged exhaust passage. 10. The power source of claim 9, wherein the forced-induction system includes a component of at least one of a turbocharger and a supercharger. 11. A method of operating a power source for use with an exhaust gas recirculation and selective catalytic reduction system, comprising: supplying air to a first cylinder group via a first air-intake passage that is fluidly connected to a main air-intake passage; supplying air to a second cylinder group via a second air-intake passage that is fluidly connected to the main air-intake passage; supplying air to a third cylinder group via the second air-intake passage; supplying a first exhaust stream from the first cylinder group to a first exhaust passage fluidly connected to the first cylinder group and converting at least a portion of the first exhaust stream to ammonia; supplying a second exhaust stream from the second cylinder group to a second exhaust passage fluidly connected to the second cylinder group; supplying a third exhaust stream from the third cylinder group to a recirculation loop such that at least a portion of the third exhaust stream is supplied to the second cylinder group and the third cylinder group; and merging the exhaust stream of the first exhaust passage with the exhaust stream of the second exhaust passage to form a merged exhaust stream in a merged exhaust passage fluidly connected to the first exhaust passage and the second exhaust passage. 12. The method of claim 11, wherein the method further includes at least partially filtering the third exhaust stream. 13. The method of claim 11, wherein the method further includes shunting at least a portion of the third exhaust stream into the second exhaust stream via an exhaust shunt fluidly connected to the recirculation loop and the second exhaust passage. 14. The method of claim 11, wherein the method further includes using a forced-induction system operably associated with at least one of the main air-intake passage, the first air-intake passage, the second air-intake passage, the first exhaust passage, the second exhaust passage, the recirculation loop, or the merged exhaust passage. 15. The method of claim 11, wherein the method further includes cooling a fluid in at least one of the main air-intake passage and the recirculation loop. 16. The method of claim 15, wherein cooling the fluid further includes supplying air to an air-cooling passage fluidly connected to the main air-intake passage and the second exhaust passage. 17. A machine, comprising: a power source including: a main air-intake passage fluidly connected to a first air-intake passage and a second air-intake passage; a first cylinder group fluidly connected to the first air-intake passage; a second cylinder group and a third cylinder group fluidly connected to the second air-intake passage; an exhaust system including: a first exhaust passage fluidly connected to the first cylinder group and a second exhaust passage fluidly connected to the second cylinder group; a recirculation loop that includes the third cylinder group and the second air-intake passage; an ammonia-producing catalyst disposed within the first exhaust passage and configured to convert at least a portion of a fluid in the first exhaust passage into ammonia; a merged exhaust passage configured to connect the first exhaust passage and the second exhaust passage to facilitate a reaction between ammonia and NOx to at least partially remove NOx from the merged exhaust passage; and wherein the recirculation loop is configured to supply at least a portion of exhaust gas from the third cylinder group to the second cylinder group and the third cylinder group. 18. The machine of claim 17, wherein a cooler is operably associated with at least one of the main air-intake passage and the recirculation loop. 19. The machine of claim 17, wherein the recirculation loop is fluidly connected to an exhaust shunt fluidly connected to the second exhaust passage. 20. The machine of claim 17, wherein the machine further includes a forced-induction system operably associated with at least one of the main air-intake passage, the first air-intake passage, the second air-intake passage, the first exhaust passage, the second exhaust passage, the recirculation loop, or the merged exhaust passage.
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