IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0245921
(2002-09-18)
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발명자
/ 주소 |
- Daniel,Michael J.
- Bauer,Shawn D.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
8 인용 특허 :
51 |
초록
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A fuel reformer is operated in one mode of operation to generate and supply a particular quantity and/or composition of reformate gas to a first component such as a NOX trap, and then is operated in a different mode of operation to generate and supply and different quantity and/or composition of ref
A fuel reformer is operated in one mode of operation to generate and supply a particular quantity and/or composition of reformate gas to a first component such as a NOX trap, and then is operated in a different mode of operation to generate and supply and different quantity and/or composition of reformate gas to a different component such as a soot particulate filter. In a similar manner, the fuel reformer is operated in one mode of operation to generate and supply a particular quantity and/or composition of reformate gas to a fuel cell, and then is operated in a different mode of operation to generate and supply and different quantity and/or composition of reformate gas to an emission abatement device. A method of operating a fuel reformer is also disclosed.
대표청구항
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The invention claimed is: 1. A method of operating an onboard fuel reforming assembly comprising the steps of: operating an onboard fuel reformer so as to generate a first reformate gas having a first composition during a first period of time, advancing the first reformate gas to a first component
The invention claimed is: 1. A method of operating an onboard fuel reforming assembly comprising the steps of: operating an onboard fuel reformer so as to generate a first reformate gas having a first composition during a first period of time, advancing the first reformate gas to a first component during the first period of time, operating the onboard fuel reformer so as to generate a second reformate gas having a second composition different from the first composition during a second period of time, and advancing the second reformate gas to a second component during the second period of time. 2. The method of claim 1, wherein: the first component comprises a fuel cell and the second component comprises an emission abatement device, the first reformate gas advancing step comprises advancing the first reformate gas to the fuel cell, and the second reformate gas advancing step comprises advancing the second reformate gas to the emission abatement device. 3. The method of claim 2, wherein the first reformate gas is richer in hydrogen than is the second reformate gas. 4. The method of claim 1, wherein: the first component comprises a fuel cell and the second component comprises an intake of an internal combustion engine, the first reformate gas advancing step comprises advancing the first reformate gas to the fuel cell, and the second reformate gas advancing step comprises advancing the second reformate gas to the intake of the engine. 5. The method of claim 1, wherein: the onboard fuel reformer comprises a plasma fuel reformer having a plasma-generating assembly, the step of operating the onboard fuel reformer so as to generate the first reformate gas comprises advancing the first reformate gas through a catalyst downstream of the plasma-generating assembly, and the step of operating the onboard fuel reformer so as to generate the second reformate gas comprises bypassing the second reformate gas around the catalyst. 6. The method of claim 1, wherein: the onboard fuel reformer comprises a plasma fuel reformer, the step of operating the onboard fuel reformer so as to generate the first reformate gas comprises advancing a first air/fuel mixture having a first air-to-fuel ratio into the plasma fuel reformer, and the step of operating the onboard fuel reformer so as to generate the second reformate gas comprises advancing a second air/fuel mixture having a second air-to-fuel ratio into the plasma fuel reformer. 7. The method of claim 1, wherein: the onboard fuel reformer comprises a plasma fuel reformer having a power supply associated therewith, the step of operating the onboard fuel reformer so as to generate the first reformate gas comprises operating the power supply so as to supply electrical power at a first power level to the plasma fuel reformer, and the step of operating the onboard fuel reformer so as to generate the second reformate gas comprises operating the power supply so as to supply electrical power at a second power level to the plasma fuel reformer. 8. An onboard fuel reforming assembly, comprising: an onboard fuel reformer, an electrically-controlled flow diverter valve, and an electronic control unit electrically coupled to the onboard fuel reformer and the flow diverter valve, the electronic control unit comprising (i) a processor, and (ii) a memory device electrically coupled to the processor, the memory device having stored therein a plurality of instructions which, when executed by the processor, cause the processor to: (a) operate the onboard fuel reformer so as to generate a first reformate gas having a first composition during a first period of time, (b) position the flow diverter valve so as to advance the first reformate gas to a first component during the first period of time, (c) operate the onboard fuel reformer so as to generate a second reformate gas having a second composition different from the first composition during a second period of time, and (d) position the flow diverter valve so as to advance the second reformate gas to a second component during the second period of time. 9. The onboard fuel reforming assembly of claim 8, wherein: the first component comprises a fuel cell for generating electrical power, and the second component comprises an emission abatement device for treating exhaust gases from an internal combustion engine. 10. The onboard fuel reforming assembly of claim 8, wherein the first reformate gas is richer in hydrogen than is the second reformate gas. 11. The onboard fuel reforming assembly of claim 8, wherein: the first component comprises a fuel cell for generating electrical power, and the second component comprises an intake of an internal combustion engine. 12. A method of operating an onboard fuel reforming assembly comprising the steps of: operating an onboard fuel reformer so as to generate a first quantity of reformate gas during a first period of time, advancing the first quantity of reformate gas to a first component during the first period of time, operating the onboard fuel reformer so as to generate a second quantity of reformate gas different from the first quantity of reformate gas during a second period of time, and advancing the second quantity of reformate gas to a second component during the second period of time. 13. The method of claim 12, wherein: the first component comprises a fuel cell and the second component comprises an emission abatement device, the step of advancing the first quantity of reformate gas comprises advancing the first quantity of reformate gas to the fuel cell, and the step of advancing the second quantity of reformate gas comprises advancing the second quantity of reformate gas to the emission abatement device. 14. The method of claim 12, wherein: the first component comprises a fuel cell and the second component comprises an intake of an internal combustion engine, the step of advancing the first quantity of reformate gas comprises advancing the first quantity of reformate gas to the fuel cell, and the step of advancing the second quantity of reformate gas comprises advancing the second quantity of reformate gas to the intake of the internal combustion engine. 15. The method of claim 12, wherein: the first component comprises a NOX trap and the second component comprises a soot particulate filter, the step of advancing the first quantity of reformate gas comprises advancing the first quantity of reformate gas to the NOX trap, and the step of advancing the second quantity of reformate gas comprises advancing the second quantity of reformate gas to the soot particulate filter. 16. The method of claim 12, wherein: the onboard fuel reformer comprises a plasma fuel reformer, the step of operating the onboard fuel reformer so as to generate the first quantity of reformate gas comprises operating the plasma fuel reformer so as to generate the first quantity of reformate gas, and the step of operating the onboard fuel reformer so as to generate the second quantity of reformate gas comprises operating the plasma fuel reformer so as to generate the second quantity of reformate gas. 17. An onboard fuel reforming assembly, comprising: an onboard fuel reformer, an electrically-controlled flow diverter valve, and an electronic control unit electrically coupled to the onboard fuel reformer and the flow diverter valve, the electronic control unit comprising (i) a processor, and (ii) a memory device electrically coupled to the processor, the memory device having stored therein a plurality of instructions which, when executed by the processor, cause the processor to: (a) operate the onboard fuel reformer so as to generate and advance a first quantity of reformate gas to a first component during a first period of time, and (b) operate the onboard fuel reformer so as to generate and advance a second quantity of reformate gas different from the first quantity of reformance gas to a second component during a second period of time. 18. The onboard fuel reforming assembly of claim 17, wherein: the first component comprises a fuel cell for generating electrical power, and the second component comprises an emission abatement device for treating exhaust gases from an internal combustion engine. 19. The onboard fuel reforming assembly of claim 17, wherein: the first component comprises a fuel cell for generating electrical power, and the second component comprises an intake of an internal combustion engine. 20. The onboard fuel reforming assembly of claim 17, wherein: the first component comprises a NOX trap for removing NOX from an exhaust gas of an internal combustion engine, and and the second component comprises a soot particulate filter for removing soot particulate from the exhaust gas of the internal combustion engine. 21. The onboard fuel reforming assembly of claim 17, wherein the onboard fuel reformer comprises a plasma fuel reformer.
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