Control strategy for expanding diesel HCCI combustion range by lowering intake manifold temperature
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-047/08
F02B-047/00
출원번호
US-0072549
(2005-03-03)
발명자
/ 주소
Liu,Zhengbai
Wei,Puning
출원인 / 주소
International Engine Intellectual Property Company, LLC
인용정보
피인용 횟수 :
13인용 특허 :
8
초록▼
An engine (10) utilizes "regular EGR cooling" when operating in HCCI mode at loads within a low load range (56, 58, 60 ) and "enhanced EGR cooling" that allows the engine to continue to operate in HCCI mode when engine load increases beyond loads in the low load range (64, 66, 68). When engine load
An engine (10) utilizes "regular EGR cooling" when operating in HCCI mode at loads within a low load range (56, 58, 60 ) and "enhanced EGR cooling" that allows the engine to continue to operate in HCCI mode when engine load increases beyond loads in the low load range (64, 66, 68). When engine load increases further to a point where it enters a high load range, the combustion mode changes over to conventional diesel combustion, and exhaust gas recirculation reverts to "regular EGR cooling" (70, 72, 74).
대표청구항▼
What is claimed is: 1. A method of operating a compression ignition engine comprising: processing data indicative of engine load, when a result of processing data indicative of engine load discloses engine load in a low load range, fueling the engine to operate by alternative diesel combustion and
What is claimed is: 1. A method of operating a compression ignition engine comprising: processing data indicative of engine load, when a result of processing data indicative of engine load discloses engine load in a low load range, fueling the engine to operate by alternative diesel combustion and passing recirculated exhaust gas through a first EGR cooler, but not a second EGR cooler, when a result of processing data indicative of engine load discloses engine load in a medium load range comprising loads greater than those of the low load range, fueling the engine to operate by alternative diesel combustion and passing recirculated exhaust gas through both the first EGR cooler and the second EGR cooler, and when a result of processing data indicative of engine load discloses engine load in a high load range comprising loads greater than those of the medium load range, fueling the engine to operate by conventional diesel combustion and passing recirculated exhaust gas through the first EGR cooler, but not the second EGR cooler. 2. A method as set forth in claim 1 wherein when a result of processing data indicative of engine load discloses engine load in either the low load range or the high load range, preventing exhaust gas from passing through the second EGR cooler by closing a valve that is in series flow relation with the second EGR cooler. 3. A method as set forth in claim 2 wherein when a result of processing data indicative of engine load discloses engine load in either the low load range or the high load range, selectively restricting the passage of recirculated exhaust gas through the first EGR cooler by controlling the extent to which a valve that is in series flow relation with the first EGR cooler is open. 4. A method as set forth in claim 1 wherein when a result of processing data indicative of engine load discloses engine load in the medium load range, causing recirculated exhaust gas to pass first through one of the EGR coolers and then the other EGR cooler. 5. A method as set forth in claim 4 wherein when a result of processing data indicative of engine load discloses engine load in the medium load range, causing recirculated exhaust gas to pass first through the first EGR cooler and then through the second EGR cooler. 6. A compression ignition engine comprising: a control system for processing data; one or more combustion chambers; an intake system for conveying charge air to the one or more combustion chambers; a fueling system for injecting fuel into the one or more combustion chambers; an exhaust system for conveying exhaust gases from the one or more combustion chambers; an exhaust gas recirculation (EGR) system for recirculating some of the exhaust gases to the intake system; wherein the control system processes data indicative of engine load, and when a result of processing data indicative of engine load discloses engine load in a low load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes the EGR system to pass recirculated exhaust gas through a first EGR cooler, but not a second EGR cooler, when a result of processing data indicative of engine load discloses engine load in a medium load range comprising loads greater than those of the low load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes the EGR system to pass recirculated exhaust gases through both the first EGR cooler and the second EGR cooler, and when a result of processing data indicative of engine load discloses engine load in a high load range comprising loads greater than those of the medium load range, the control system causes the fueling system to fuel the engine for operation by conventional diesel combustion and causes the EGR system to pass recirculated exhaust gases through the first EGR cooler, but not the second EGR cooler. 7. An engine as set forth in claim 6 including a valve that is in series flow relation with the second EGR cooler and that is operated closed when a result of processing data indicative of engine load discloses engine load in either the low load range or the high load range for preventing exhaust gases from passing through the second EGR cooler. 8. An engine as set forth in claim 7 including another valve that is in series flow relation with the first EGR cooler and that is selectively restricted to control the passage of recirculated exhaust gases through the first EGR cooler when a result of processing data indicative of engine load discloses engine load in either the low load range or the high load range. 9. An engine as set forth in claim 6 wherein the EGR coolers are arranged in flow relation such that when a result of processing data indicative of engine load discloses engine load in the medium load range, recirculated exhaust gases pass first through one of the EGR coolers and then the other EGR cooler. 10. An engine as set forth in claim 9 wherein the EGR coolers are also arranged such that when a result of processing data indicative of engine load discloses engine load in the medium load range, recirculated exhaust gases pass first through the first EGR cooler and then through the second EGR cooler. 11. A compression ignition engine comprising: a control system for processing data; one or more combustion chambers; an intake system for conveying charge air to the one or more combustion chambers; a fueling system for injecting fuel into the one or more combustion chambers; an exhaust system for conveying exhaust gases from the one or more combustion chambers; an exhaust gas recirculation (EGR) system for recirculating some of the exhaust gases to the intake system comprising a first EGR cooler through which flow of recirculated exhaust gases can be selectively restricted and a second EGR cooler through which flow of recirculated exhaust gases can be selectively restricted; wherein the control system processes data indicative of engine load, and when a result of processing data indicative of engine load discloses engine load in a first load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes the EGR system to prohibit flow of exhaust gases through one of the EGR coolers while selectively restricting flow of exhaust gases through the other EGR cooler, when a result of processing data indicative of engine load discloses engine load in a second load range comprising loads greater than those of the first load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes the EGR system to selectively restrict flow of exhaust gases through both EGR coolers. 12. An engine as set forth in claim 11 wherein the first and second EGR coolers are in series flow relationship. 13. An engine as set forth in claim 12 wherein the first EGR cooler has an inlet in communication with the exhaust system and a outlet that is in communication both with an inlet of the second EGR cooler and an inlet of a first EGR valve that has an outlet in communication with the intake system, and the second EGR cooler has an outlet in communication with an inlet of a second EGR valve that has an outlet in communication with the intake system. 14. An engine as set forth in claim 13 wherein the first EGR valve is operated closed and the second EGR valve is operated to selectively restrict flow of exhaust gases through both EGR coolers when a result of processing data indicative of engine load discloses engine load in the second load range, and the second EGR valve is operated closed and the first EGR valve is operated to selectively restrict flow of exhaust gases through itself when a result of processing data indicative of engine load discloses engine load in the first load range. 15. An engine as set forth in claim 11 wherein when a result of processing data indicative of engine load discloses engine load in a third load range comprising loads greater than those of the first and second load ranges, the control system causes the fueling system to fuel the engine for operation by conventional diesel combustion and causes the EGR system to prohibit flow of exhaust gases through the one EGR cooler.
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이 특허에 인용된 특허 (8)
Kuboshima, Tsukasa; Sekiguchi, Kiyonori; Kinugawa, Masumi; Saito, Makoto; Yahata, Shigeto, Control system for engine.
Liu, Zhengbai; Wei, Puning; Sullivan, Dennis Kelly, Strategy for fueling a diesel engine by selective use of fueling maps to provide HCCI+RVT, HCCI+VVT, and CD+RVT combustion modes.
Kardos, Zoltan; Pettersson, Rickard; Alsterdal, Tomas; Nyrén, Henrik, Arrangement for recirculation of exhaust gases in a supercharged combustion engine.
Kuo,Tang Wei; Kang,Jun Mo; Chang,Chen Fang; Sun,Zongxuan; Eng,James A.; Brown,Barry L.; Najt,Paul M.; Chang,Man Feng, Method for load transient control between lean and stoichiometric combustion modes of direct-injection engines with controlled auto-ignition combustion.
Kuo,Tang Wei; Sun,Zongxuan; Kang,Jun Mo; Eng,James A.; Chang,Chen Fang; Brown,Barry L.; Najt,Paul M.; Chang,Man Feng, Method for transition between controlled auto-ignition and spark ignition modes in direct fuel injection engines.
Liu,Zhengbai; Wei,Puning; Sullivan,Dennis Kelly, Strategy for fueling a diesel engine by selective use of fueling maps to provide HCCI+RVT, HCCI+IVC, HCCI+IVC+EVC, and CD+RVT combustion modes.
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