Feedforward compensation for fuel system vacuum relief
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-001/00
F02D-041/00
F02M-025/08
F02D-011/10
F02M-037/00
출원번호
US-0825928
(2015-08-13)
등록번호
US-9523317
(2016-12-20)
발명자
/ 주소
Li, Yonghua
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Dottavio, James
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
Methods and systems are provided for relieving excess fuel tank vacuum in a vehicle. In one example, responsive to a fuel tank vacuum above a threshold or a rise in fuel tank vacuum level being higher than a threshold rate, a canister purge valve is opened to dissipate the fuel tank vacuum into an e
Methods and systems are provided for relieving excess fuel tank vacuum in a vehicle. In one example, responsive to a fuel tank vacuum above a threshold or a rise in fuel tank vacuum level being higher than a threshold rate, a canister purge valve is opened to dissipate the fuel tank vacuum into an engine intake manifold while the engine is combusting, and the amount of intake air inducted into the intake manifold is adjusted such that air/fuel ratio errors are reduced. In this way, fuel tank vacuum may be relieved under engine operating conditions wherein the likelihood of air/fuel ratio errors are high, thus enabling rapid relief of fuel tank vacuum such that fuel tank degradation can be reduced and fuel system integrity can be better maintained.
대표청구항▼
1. A method for a fuel system coupled to an engine, comprising: in response to a fuel tank vacuum level,opening a canister purge valve (CPV) to dissipate the fuel tank vacuum level into an engine intake manifold while the engine is combusting, andadjusting an amount of intake air inducted into the i
1. A method for a fuel system coupled to an engine, comprising: in response to a fuel tank vacuum level,opening a canister purge valve (CPV) to dissipate the fuel tank vacuum level into an engine intake manifold while the engine is combusting, andadjusting an amount of intake air inducted into the intake manifold based on the fuel tank vacuum level. 2. The method of claim 1, wherein in response to a fuel tank vacuum level includes one or more of in response to fuel tank vacuum level being higher than a threshold level and in response to a rise in fuel tank vacuum level being higher than a threshold rate. 3. The method of claim 1, further comprising closing the CPV responsive to the fuel tank vacuum level dropping below a threshold level. 4. The method of claim 1, wherein adjusting the amount of intake air inducted into the intake manifold based on the fuel tank vacuum level comprises adjusting the amount of intake air inducted into the intake manifold based on one or more of a pressure difference between the intake manifold and the fuel tank, an intake air temperature, a measured or inferred fuel tank temperature, the fuel tank temperature inferred based on one or more of ambient temperature and engine on time, and a gas space of the fuel tank, the gas space determined based on fuel level and fuel tank volume. 5. The method of claim 1, wherein adjusting an amount of intake air inducted into the intake manifold based on the fuel tank vacuum level includes adjusting a position of intake throttle upstream of the intake manifold. 6. The method of claim 5, wherein adjusting the position of the intake throttle comprises setting an initial position of the intake throttle based on vehicle operator requested torque and adjusting the initial position based on the level of fuel tank vacuum. 7. The method of claim 5, further comprising continuously adjusting the position of the intake throttle based on the fuel tank vacuum level as the fuel tank vacuum is being dissipated. 8. The method of claim 7, wherein continuously adjusting the position of the intake throttle based on the fuel tank vacuum level includes further adjusting the position of the throttle based on a measured air/fuel ratio. 9. A method for a fuel system coupled in a vehicle, comprising: responsive to a first condition, opening a canister purge valve (CPV) to route intake air from downstream of an intake throttle to a fuel tank while an engine is not combusting; andresponsive to a second condition, opening the CPV to route intake air from downstream of the intake throttle to the fuel tank while the engine is combusting, and adjusting an amount of intake air inducted into the intake manifold based on a determined amount of the intake air that is routed from downstream of the intake throttle to the fuel tank. 10. The method of claim 9, wherein the vehicle is a hybrid vehicle, and wherein the first condition includes a fuel tank vacuum level above a threshold level or a rise in fuel tank vacuum level being higher than a threshold rate and the hybrid vehicle being propelled in a battery mode. 11. The method of claim 10, wherein the second condition includes the fuel tank vacuum level above the threshold level or the rise in fuel tank vacuum level being higher than the threshold rate and the hybrid vehicle being propelled by the engine. 12. The method of claim 11, further comprising: closing the CPV responsive to fuel tank vacuum below a threshold level. 13. The method of claim 9, wherein the determined amount of the intake air that is routed from downstream of the intake throttle to the fuel tank is determined based on one or more of a pressure difference between the intake manifold and the fuel tank, an intake air temperature, a fuel tank temperature, the fuel tank temperature inferred based on one or more of ambient temperature and engine on time, a gas space of the fuel tank, the gas space of the fuel tank based on fuel level. 14. The method of claim 9, wherein the fuel system does not include a pressure relief valve. 15. The method of claim 9, wherein adjusting an amount of intake air inducted into the intake manifold includes setting an initial throttle position based on vehicle operator requested torque, determining a difference between the determined amount of the intake air that is routed from downstream of the intake throttle to the fuel tank and an air charge demand to meet the operator requested torque, andadjusting the throttle position based on the difference. 16. The method of claim 15, further comprising: continuously adjusting throttle position based on the difference between the determined amount of the intake air that is routed from downstream of the intake throttle to the fuel tank and an air charge demand to meet the operator requested torque, the continuously adjusted throttle position further adjusted based on a measured air/fuel ratio. 17. A fuel system of a vehicle, comprising: a fuel tank coupled to an engine intake manifold of an engine via a conduit comprising a fuel vapor canister;a canister purge valve (CPV) coupled between the fuel vapor canister and the engine intake manifold;a throttle, positioned within an air intake passage coupled to the engine intake manifold; anda controller storing instructions in non-transitory memory, that when executed, cause the controller to:responsive to a fuel tank vacuum level being higher than a threshold level or in response to a rise in fuel tank vacuum level being higher than a threshold rate, while the engine is combusting, open the CPV to route intake air from downstream of the throttle to the fuel tank, and adjust a position of the throttle based on a determined amount of the intake air that is routed from downstream of the throttle to the fuel tank; andclose the CPV responsive to fuel tank vacuum dropping below a threshold level. 18. The fuel system coupled to an engine of claim 17, wherein the vehicle is a hybrid vehicle configured to be propelled in one or more of an engine mode and a battery mode, and wherein the instructions further include instructions that when executed cause the controller to, responsive to the fuel tank vacuum level being higher than the threshold level or in response to the rise in fuel tank vacuum level being higher than the threshold rate, while the engine is not combusting, open the CPV to route intake air from downstream of the intake throttle to the fuel tank; wherein the engine is not combusting, the hybrid vehicle is being propelled in the battery mode. 19. The fuel system of claim 17, wherein the amount of the intake air that is routed from downstream of the throttle to the fuel tank is determined based on one or more of a pressure difference between the intake manifold and the fuel tank, an intake air temperature measured by an intake air temperature sensor, a fuel tank temperature, the fuel tank temperature inferred based on one or more of ambient temperature and engine on time, a gas space of the fuel tank, the gas space of the fuel tank based on fuel level. 20. The fuel system of claim 17, wherein adjusting a position of the throttle based on a determined amount of the intake air that is routed from downstream of the throttle to the fuel tank comprises continually adjusting the position of the throttle based on a feedforward air compensation term such that intake manifold pressure does not change as a result of routing intake air from downstream of the throttle to the fuel tank, and further comprising adjusting the feedforward compensation term based on a measured air/fuel ratio.
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이 특허에 인용된 특허 (5)
Suzuki,Naoto, Control apparatus for sealed fuel tank system.
Feldkamp, Lee Albert; Yuan, Fumin; Jesion, Gerald; Davis, Jr., Leighton Ira, Feed forward method for canister purge compensation within engine air/fuel ratio control systems having fuel vapor recovery.
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