IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0362730
(2012-01-31)
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등록번호 |
US-8745974
(2014-06-10)
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발명자
/ 주소 |
- Zemskova, Svetlana Mikhailovna
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출원인 / 주소 |
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대리인 / 주소 |
Finnegan, Henderson, Farabow, Garrett & Dunner LLP
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인용정보 |
피인용 횟수 :
0 인용 특허 :
11 |
초록
▼
An exhaust system includes an exhaust passage configured to receive exhaust from a combustion engine, a heat exchanger disposed within the exhaust passage, and a reductant supply fluidly connected to the heat exchanger, the reductant supply including methane. The exhaust system also includes a first
An exhaust system includes an exhaust passage configured to receive exhaust from a combustion engine, a heat exchanger disposed within the exhaust passage, and a reductant supply fluidly connected to the heat exchanger, the reductant supply including methane. The exhaust system also includes a first catalyst fluidly connected to the heat exchanger and configured to receive methane from the reductant supply via the heat exchanger. The exhaust system further includes a second catalyst disposed within the exhaust passage and configured to receive the exhaust from the combustion engine via the heat exchanger. The exhaust system also includes a clean-up catalyst disposed within the exhaust passage and configured to receive a combined flow. The combined flow includes the exhaust and the methane exiting the first catalyst.
대표청구항
▼
1. An exhaust system, comprising: an exhaust passage configured to receive exhaust from a combustion engine;a heat exchanger disposed within the exhaust passage;a reductant supply fluidly connected to the heat exchanger, the reductant supply including methane;a first catalyst fluidly connected to th
1. An exhaust system, comprising: an exhaust passage configured to receive exhaust from a combustion engine;a heat exchanger disposed within the exhaust passage;a reductant supply fluidly connected to the heat exchanger, the reductant supply including methane;a first catalyst fluidly connected to the heat exchanger and configured to receive methane from the reductant supply via the heat exchanger;a second catalyst disposed within the exhaust passage and configured to receive the exhaust from the combustion engine via the heat exchanger; anda clean-up catalyst disposed within the exhaust passage and configured to receive a combined flow, the combined flow including the exhaust and the methane exiting the first catalyst. 2. The exhaust system of claim 1, wherein the first catalyst comprises an oxidation catalyst configured to at least partially oxidize the methane received from the reductant supply. 3. The exhaust system of claim 1, further comprising a pressurizing device fluidly connected to the reductant supply, the pressurizing device configured to direct a pressurized mixture of methane and air to the heat exchanger. 4. The exhaust system of claim 3, further comprising an exhaust sensor disposed in the exhaust passage upstream of the second catalyst, the exhaust sensor configured to generate a signal indicative of a NOx concentration of the exhaust, and a controller in communication with the sensor and the pressurizing device, the controller configured to regulate operation of the pressurizing device in response to the signal. 5. The exhaust system of claim 1, wherein the second catalyst comprises an oxidation catalyst configured to convert NO in the exhaust to NO2. 6. The exhaust system of claim 1, wherein the clean-up catalyst comprises a redox catalyst configured to convert the combined flow to N2, CO2, and H2O. 7. The exhaust system of claim 1, wherein the heat exchanger is configured to cool the exhaust to a temperature between approximately 250° C. and approximately 400° C. 8. The exhaust system of claim 1, wherein the exhaust comprises at least approximately 500 ppm NOx. 9. The exhaust system of claim 8, wherein the second catalyst is configured to convert at least 50 percent of NO in the exhaust to NO2, and to direct the NO2 to the clean-up catalyst. 10. The exhaust system of claim 9, wherein the clean-up catalyst is configured to reduce a portion of the NO2 received from the second catalyst in the presence of partially oxidized methane received from the first catalyst. 11. The exhaust system of claim 1, wherein the second catalyst is disposed upstream of the clean-up catalyst and downstream of the first catalyst, such that the combined flow is formed upstream of the second catalyst. 12. The exhaust system of claim 11, wherein the second catalyst and the clean-up catalyst are disposed on a single substrate. 13. The exhaust system of claim 11, wherein the second catalyst and the clean-up catalyst are disposed in a single housing. 14. The exhaust system of claim 1, wherein the second catalyst and the clean-up catalyst are mixed together and disposed on a single substrate downstream of the first catalyst, such that the combined flow is formed upstream of the second catalyst and the clean-up catalyst. 15. The exhaust system of claim 1, wherein the second catalyst is disposed in a housing separate from and upstream of the clean-up catalyst such that the combined flow is formed downstream of the second catalyst. 16. An exhaust system, comprising: a heat exchanger configured to reduce a temperature of exhaust received from a combustion engine to between approximately 250° C. and approximately 400° C.;a first catalyst fluidly connected to the heat exchanger and configured to at least partially oxidize methane heated by the heat exchanger;a second catalyst fluidly connected to the heat exchanger in parallel with the first catalyst, the second catalyst configured to oxidize constituents of the exhaust; anda clean-up catalyst disposed downstream of the first and second catalysts, the clean-up catalyst configured to reduce constituents of a combined flow, the combined flow including the oxidized constituents of the exhaust and the at least partially oxidized methane. 17. The exhaust system of claim 16, further comprising a reductant supply fluidly connected to the heat exchanger, the reductant supply including methane, and a pressurizing device fluidly connected to the reductant supply, the pressurizing device configured to direct a pressurized mixture of methane and air to the heat exchanger. 18. The exhaust system of claim 17, further comprising an exhaust sensor disposed upstream of the second catalyst, the exhaust sensor configured to generate a signal indicative of a NOx concentration of the exhaust, and a controller in communication with the sensor and the pressurizing device, the controller configured to regulate operation of the pressurizing device in response to the signal. 19. A method of treating exhaust from a combustion engine, comprising: reducing a temperature of the exhaust to between approximately 250° C. and approximately 400° C., wherein the exhaust comprises at least approximately 500 ppm NOx;converting at least 50 percent of NO in the exhaust to NO2;at least partially oxidizing a mixture of methane and air; andreducing the NO2 in the presence of the at least partially oxidized mixture. 20. The method of claim 19, further comprising determining a NOx concentration of the exhaust, and regulating a ratio of air to methane in the mixture of methane and air based on the NOx concentration.
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