Controlling an internal combustion engine through modeling compensation of PCV fuel flow due to oil dilution
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-041/30
F02M-035/10
F02D-041/40
F02D-041/00
출원번호
US-0159321
(2014-01-20)
등록번호
US-9482174
(2016-11-01)
발명자
/ 주소
DeAngelis, Joseph Michael
Scannell, Michael Ryan
Blin, Gregory
Sanghvi, Rama
Thomas, Joseph Lyle
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Dottavio, James
인용정보
피인용 횟수 :
1인용 특허 :
11
초록▼
A method for controlling an internal combustion engine based on the amount of un-burned fuel dissolved in the engine oil, and returned into the manifold through the PCV valve as the engine oil temperature rises via adjusting fuel injection into a cylinder from a fuel injector, in a fuel delivery sys
A method for controlling an internal combustion engine based on the amount of un-burned fuel dissolved in the engine oil, and returned into the manifold through the PCV valve as the engine oil temperature rises via adjusting fuel injection into a cylinder from a fuel injector, in a fuel delivery system. The fuel dilution in engine oil and the amount of fuel entering the intake manifold through the PCV valve can be determined based on one or more of oil volume, fuel composition (e.g., ethanol content), oil temperature, engine temperature, engine speed, engine load, engine run time, injected fuel mass, and exhaust gas composition.
대표청구항▼
1. A method for controlling an engine based on engine oil fuel dilution comprising: adjusting fuel injection into a cylinder based on an amount of fuel dilution of oil stored in an oil reservoir, engine oil volume, positive crankcase ventilation (PCV) gas flow, engine temperature, and oil temperatur
1. A method for controlling an engine based on engine oil fuel dilution comprising: adjusting fuel injection into a cylinder based on an amount of fuel dilution of oil stored in an oil reservoir, engine oil volume, positive crankcase ventilation (PCV) gas flow, engine temperature, and oil temperature, the amount of fuel dilution determined based on injected fuel mass, oil temperature, engine temperature, engine speed, engine load, engine run time, and fuel composition; andprior to adjusting the fuel injection, flowing PCV gas into an intake system of an internal combustion engine from a PCV system based on a pressure differential between a crankcase and an intake manifold;the amount of fuel dilution for a given engine oil volume, PCV gas flow, engine temperature, and oil temperature used to determine an amount of fuel evaporating from the oil and participating in combustion via the PCV system, the fuel injection adjusted based on the amount of evaporated fuel participating in combustion. 2. The method of claim 1, where adjusting fuel injection includes decreasing a fuel injection amount in response to an increasing amount of fuel dilution for the given engine oil volume, PCV gas flow, engine temperature, and oil temperature. 3. The method of claim 1, where adjusting fuel injection includes increasing a fuel injection amount in response to a decreasing amount of fuel dilution for the given engine oil volume, PCV gas flow, engine temperature, and oil temperature. 4. The method of claim 1, where the amount of evaporated fuel participating in combustion is determined based on at least one of a feedforward model and feedback model. 5. A method for controlling an engine based on engine oil fuel dilution comprising: adjusting fuel injection into a cylinder based on an amount of fuel dilution of oil stored in an oil reservoir, engine oil volume, positive crankcase ventilation (PCV) gas flow, engine temperature, and oil temperature, the amount of fuel dilution determined based on injected fuel mass, oil temperature, engine temperature, engine speed, engine load, engine run time, and fuel composition, and adjusting an amount of fuel injection based a feedback control strategy determining a deviation between a commanded combusted fuel amount and an actual combusted fuel amount. 6. A method for controlling an engine based on engine oil fuel dilution comprising: adjusting fuel injection into a cylinder based on an amount of fuel dilution of engine oil stored in an oil reservoir, engine oil volume, positive crankcase ventilation (PCV) gas flow, engine temperature, and oil temperature, the amount of fuel dilution determined based on injected fuel mass, oil temperature, engine temperature, engine speed, engine load, engine run time, and fuel composition, anddisabling a vapor purge valve that connects a canister of stored fuel vapors to an intake manifold based on at least one of an amount of fuel evaporating from the engine oil and participating in combustion and engine run time. 7. A method for controlling an engine based on engine oil fuel dilution comprising: adjusting fuel injection into a cylinder based on an amount of fuel dilution of oil stored in an oil reservoir, engine oil volume, positive crankcase ventilation (PCV) gas flow, engine temperature, and oil temperature, the amount of fuel dilution determined based on injected fuel mass, oil temperature, engine temperature, engine speed, engine load, engine run time, and fuel composition, where the amount of engine fuel dilution is determined based on a composition of fuel in a fuel delivery system, engine temperature, engine speed, engine load, engine run time, and injected fuel mass. 8. An engine comprising: a cylinder;a fuel injector providing metered fuel to the cylinder; anda control system including non-transitory instructions stored in memory executable by a processor for adjusting fuel injection into the cylinder from the fuel injector based on an amount of engine oil fuel dilution in engine oil stored in an oil reservoir, the amount of engine oil fuel dilution determined based on one or more of oil volume, a PCV gas flow, oil temperature, engine temperature, injected fuel mass, fuel type, engine speed, and engine load, wherein adjusting the fuel injection is further based on a feedback control strategy determining a deviation between a commanded combusted fuel amount and an actual combusted fuel amount. 9. The engine of claim 8, where the fuel injector is included in a fuel delivery system. 10. The engine of claim 9, where fuel stored in the fuel delivery system comprises alcohol. 11. The engine of claim 8, where the fuel injector is a direct fuel injector directly coupled to the cylinder or an injected port fuel injector. 12. The engine of claim 8, where adjusting fuel injection into the cylinder based on the amount of engine oil fuel dilution for a given engine oil volume, PCV gas flow, engine temperature, and oil temperature includes adjusting fuel injection into the cylinder based on an amount of fuel evaporating from the engine oil and participating in combustion via a PCV system. 13. The engine of claim 8, where the amount of engine oil fuel dilution is further determined based on an oil change interval. 14. A method for determining an amount of fuel diluting in an engine oil of an internal combustion engine, comprising: determining an amount of engine oil fuel dilution based on one or more of oil volume, oil temperature, engine temperature, engine speed, engine load, engine run time, and injected fuel mass;determining an amount of fuel evaporating from the engine oil and participating in cylinder combustion via a positive crankcase ventilation (PCV) system based on the amount of engine oil fuel dilution for a given engine oil volume, PCV gas flow, engine temperature, and oil temperature, the amount of evaporated fuel participating in combustion determined based on at least one of a feedforward model and feedback model; andadjusting fuel injection into a cylinder from a fuel injector in a fuel delivery system based on the amount of fuel evaporating from the engine oil and participating in cylinder combustion and a feedback control strategy determining a deviation between a commanded combusted fuel amount and an actual combusted fuel amount. 15. The method of claim 14, where adjusting fuel injection includes increasing an amount of fuel injected into the cylinder and decreasing the amount of fuel injected into the cylinder. 16. The method of claim 14, where adjusting fuel injection into the cylinder is implemented while PCV gas flow into an engine intake system is in fluidic communication with the cylinder. 17. The method of claim 14, further comprising disabling of a vapor purge valve that connects a canister of stored fuel vapors to an intake manifold based on the amount of fuel evaporating from the engine oil and participating in combustion. 18. The method of claim 14, where the amount of engine oil fuel dilution is further determined based on an oil change interval.
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이 특허에 인용된 특허 (11)
Ghafari, C. Joseph; Martin, Roy, Automotive fuel system.
Honda,Koji; Teraoka,Masahiko; Idogawa,Masanao; Hirowatari,Seiji, Fuel injection control apparatus for direct injection type internal combustion engine.
Ito, Yukikazu; Hirose, Kiyoo; Honda, Koji, Fuel injection timing control apparatus and control method thereof for in-cylinder injection gasoline engine.
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