IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0348770
(2006-02-07)
|
등록번호 |
US-7293409
(2007-11-13)
|
발명자
/ 주소 |
- Sellnau,Mark C.
- Quader,Ather
- Kirwan,John E.
|
출원인 / 주소 |
- Delphi Technologies, Inc.
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
10 |
초록
▼
A diesel combustion engine system providing improved fuel combustion and exhaust aftertreatment includes: a diesel combustion engine having a liquid fuel intake, an air intake, a reformate intake, and an exhaust outlet; a liquid diesel fuel source in fluid communication with the liquid fuel intake a
A diesel combustion engine system providing improved fuel combustion and exhaust aftertreatment includes: a diesel combustion engine having a liquid fuel intake, an air intake, a reformate intake, and an exhaust outlet; a liquid diesel fuel source in fluid communication with the liquid fuel intake and an on-board catalytic partial oxidation fuel reformer that receives a supply of hydrogen-containing liquid diesel fuel and a supply of air and produces therefrom a hydrogen-rich reformate. An exhaust conduit in fluid communication with the exhaust outlet and the reformer includes a reformate conduit upstream from exhaust aftertreatment components. The system provides for supplying: under conditions of low engine load, reformate or a combination of liquid diesel fuel and reformate to the engine; under conditions of medium engine load, a combination of liquid diesel fuel and reformate to the engine; and, under conditions of high engine load, liquid diesel fuel only to the engine and reformate only to the exhaust conduit.
대표청구항
▼
What is claimed is: 1. A diesel combustion engine system comprising: a diesel combustion engine having a liquid fuel intake, an air intake, a reformate intake, and an exhaust outlet; a liquid diesel fuel source in fluid communication with said liquid fuel intake and an on-board catalytic partial ox
What is claimed is: 1. A diesel combustion engine system comprising: a diesel combustion engine having a liquid fuel intake, an air intake, a reformate intake, and an exhaust outlet; a liquid diesel fuel source in fluid communication with said liquid fuel intake and an on-board catalytic partial oxidation fuel reformer that receives a supply of hydrogen-containing liquid diesel fuel and a supply of air and produces therefrom a hydrogen-rich reformate; an exhaust conduit in fluid communication with said exhaust outlet and with said reformer, said exhaust conduit comprising a reformate conduit upstream from exhaust aftertreatment components selected from the group consisting of oxidation catalysts, NOx adsorbers, particulate filters, and combinations thereof; and control means for: (a) supplying, under conditions of low engine load, reformate or a combination of liquid diesel fuel and reformate to said engine, (b) supplying, under conditions of medium engine load, a combination of liquid diesel fuel and reformate to said engine, and (c) supplying, under conditions of high engine load, liquid diesel fuel only to said engine and reformate only to said exhaust conduit. 2. The diesel combustion engine system of claim 1 further comprising: control means for supplying, under conditions of low engine load, reformate to said exhaust conduit. 3. The diesel combustion engine system of claim 1 further comprising: control means for supplying, under conditions of medium engine load, reformate to said exhaust conduit. 4. The diesel combustion engine system of claim 1 wherein said exhaust aftertreatment components in said exhaust conduit include, disposed in serial order downstream from said reformate conduit, a first oxidation catalyst, a NOx adsorber, and a coupled second oxidation catalyst and particulate filter. 5. The diesel combustion engine system of claim 1 wherein said exhaust aftertreatment components in said exhaust conduit include, disposed in serial order downstream from said reformate conduit, a coupled second oxidation catalyst and particulate filter, a first oxidation catalyst, and a NOx adsorber. 6. The diesel combustion engine system of claim 1 wherein said exhaust aftertreatment components in said exhaust conduit include, disposed in serial order downstream from said reformate conduit, a first oxidation catalyst, a coupled second oxidation catalyst and particulate filter, and a NOx adsorber. 7. A process for improving fuel combustion and exhaust aftertreatment in a diesel engine, said process comprising: producing a hydrogen-rich reformate from hydrogen-containing liquid diesel fuel supplied to an on-board catalytic partial oxidation fuel reformer from a liquid diesel fuel source in fluid communication with said reformer and with a diesel combustion engine having a liquid fuel intake, an air intake, a reformate intake, and an exhaust outlet; supplying, under conditions of low engine load, reformate or a combination of liquid diesel fuel and reformate to said engine; supplying, under conditions of medium engine load, a combination of liquid diesel fuel and reformate to said engine; and supplying, under conditions of high engine load, liquid diesel fuel only to said engine and reformate only to an exhaust conduit in fluid communication with said exhaust outlet and with said reformer, said exhaust conduit comprising a reformate conduit upstream from exhaust aftertreatment components selected from the group consisting of oxidation catalysts, NOx adsorbers, particulate filters, and combinations thereof; wherein fuel combustion is improved under conditions of low engine load and medium engine load, and exhaust aftertreatment is improved under conditions of high engine load. 8. The process of claim 7 further comprising: supplying, under conditions of low engine load, reformate to said exhaust conduit. 9. The process of claim 7 further comprising: supplying, under conditions of medium engine load, reformate to said exhaust conduit. 10. The process of claim 7 wherein said exhaust aftertreatment components in said exhaust conduit comprise, disposed in serial order downstream from said reformate conduit, a first oxidation catalyst, a NOx adsorber, and a coupled second oxidation catalyst and particulate filter. 11. The process of claim 7 wherein said exhaust aftertreatment components in said exhaust conduit comprise, disposed in serial order downstream from said reformate conduit, a coupled second oxidation catalyst and particulate filte, a first oxidation catalyst, and a NOx adsorber. 12. The process of claim 7 wherein said exhaust aftertreatment components in said exhaust conduit comprise, disposed in serial order downstream from said reformate conduit, a first oxidation catalyst, a coupled second oxidation catalyst and particulate filter, and a NOx adsorber. 13. The diesel combustion engine system of claim 1 wherein said low engine load is equal to or less than about one-third of a maximum engine torque of said diesel combustion engine. 14. The diesel combustion engine system of claim 13 wherein said medium engine load is between about one-third of said maximum engine torque and about two-thirds of said maximum engine torque. 15. The diesel combustion engine system of claim 14 wherein said high engine load is equal to or greater than about two-thirds of said maximum engine torque. 16. The process of claim 7 wherein said low engine load is equal to or less than about one-third of a maximum engine torque of said diesel engine. 17. The process of claim 16 wherein said medium engine load is between about one-third of said maximum engine torque and about two-thirds of said maximum engine torque. 18. The process of claim 17 wherein said high engine load is equal to or greater than about two-thirds of said maximum engine torque.
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