초록 ▼

Methods and systems are provided for estimating fuel volatility. During a vehicle-off condition following a refueling event, fuel volatility may be estimated by operating a fuel pump of a fuel system immediately after the refueling event while a fuel tank temperature is stable. Based on estimated fu

Methods and systems are provided for estimating fuel volatility. During a vehicle-off condition following a refueling event, fuel volatility may be estimated by operating a fuel pump of a fuel system immediately after the refueling event while a fuel tank temperature is stable. Based on estimated fuel volatility, fuel injection amount and leak test thresholds may be adjusted.

대표청구항 ▼

1. A method, comprising: adjusting, at a controller, a leak test threshold for a fuel system leak test based on a volatility of a fuel, the volatility of the fuel estimated by the controller by operating a fuel pump of a fuel system during a vehicle-off condition immediately after a refueling event

1. A method, comprising: adjusting, at a controller, a leak test threshold for a fuel system leak test based on a volatility of a fuel, the volatility of the fuel estimated by the controller by operating a fuel pump of a fuel system during a vehicle-off condition immediately after a refueling event while a fuel tank temperature is stable;performing the fuel system leak test using the leak test threshold;indicating, via a diagnostic code set by the controller, fuel system degradation based on the fuel system leak test performed by the controller; andduring a vehicle-on condition following the vehicle-off condition, adjusting an amount of fuel injected to an engine, via the controller, based on the estimated volatility of the fuel,wherein adjusting the leak test threshold includes increasing the leak test threshold as the estimated fuel volatility increases,wherein the fuel tank temperature is stable when a change in the fuel tank temperature for a first duration of the vehicle-off condition is within a threshold amount, andwherein the fuel volatility estimated by the controller during the vehicle-off condition includes, isolating, via the controller, a fuel tank of the fuel system, the fuel tank coupled to the engine, operating, via the controller, the fuel pump of the fuel system without operating the engine coupled to the fuel system for a second duration to raise fuel tank pressure, and estimating, via the controller, the fuel volatility based on a peak fuel tank pressure, wherein isolating the fuel tank of the fuel system includes closing a canister purge valve that couples a canister to an engine intake and closing a canister vent valve that couples the canister to atmosphere. 2. The method of claim 1, wherein the estimated fuel volatility is further adjusted by the controller based on barometric pressure, and where the amount of fuel injected is decreased as the estimated volatility of the fuel increases. 3. The method of claim 1, wherein the change in fuel tank temperature is monitored via a fuel tank temperature sensor coupled to the fuel tank during the vehicle-on condition following the vehicle-off condition. 4. A method for a controller coupled to an engine fuel system, comprising: during a first vehicle-off condition immediately following a refueling event, wherein a change of a fuel tank temperature stays within a threshold range, the change of the fuel tank temperature monitored via a temperature sensor,isolating a fuel tank; andoperating a fuel pump, including agitating fuel and producing vapors, to estimate a fuel volatility,wherein operating the fuel pump to estimate the fuel volatility includes operating the fuel pump without operating an engine for a duration of the first vehicle-off condition to raise a fuel tank pressure above a threshold pressure, and estimating the fuel volatility based on peak pressure of the isolated fuel tank, a duration of operating the fuel pump based on one or more of a fill level of the fuel tank and the fuel tank temperature,wherein the engine fuel system includes a fuel vapor canister coupled between the fuel tank and the engine, and wherein isolating the fuel tank includes closing a canister vent valve coupled between the fuel vapor canister and atmosphere, and closing a canister purge valve coupled between the fuel vapor canister and an engine intake, andwherein the estimated fuel volatility is further adjusted based on barometric pressure, and wherein the estimated fuel volatility is based on a resulting peak pressure of the fuel tank during operation of the fuel pump while the change of the fuel tank temperature stays within the threshold range, the peak pressure of the fuel tank measured via a pressure sensor coupled to the fuel tank, where the peak pressure is an equilibrium pressure in the fuel tank during operation of the fuel pump. 5. The method of claim 4, further comprising, during a second vehicle-off condition following the first vehicle-off condition, performing a leak test to identify fuel system degradation, a threshold of the leak test based on the estimated fuel volatility, the leak test threshold increased as the estimated fuel volatility increases. 6. The method of claim 4, further comprising, during an engine-on condition following the first vehicle-off condition, adjusting a fuel injection amount based on the estimated fuel volatility, the injection amount decreased as the estimated fuel volatility increases. 7. The method of claim 4, wherein the engine fuel system is coupled in a hybrid vehicle system. 8. The method of claim 4, wherein the estimated fuel volatility includes an estimated fuel Reid Vapor Pressure (RVP). 9. A hybrid vehicle system, comprising: an engine including an intake;an electric motor;a fuel system including a fuel tank, a fuel vapor canister, and a fuel pump, a first valve coupling the canister to the engine intake, a second valve coupling the canister to atmosphere;a pressure sensor coupled to the fuel tank;a temperature sensor coupled to the fuel tank; anda controller with computer readable instructions for: shifting to a sleep mode at a first vehicle-off event immediately following a tank refueling event;waking up from the sleep mode upon elapse of a duration since the first vehicle-off event;monitoring a fuel tank pressure after the waking up via the pressure sensor coupled to the fuel tank; andif a change of the fuel tank pressure stays within a threshold range during the monitoring, closing the first and second valves to seal the fuel tank;operating the fuel pump without operating the engine;estimating a fuel volatility based on a peak tank pressure; andadjusting a leak detection threshold based on the estimated fuel volatility. 10. The system of claim 9, wherein the controller includes further instructions for, during a second vehicle-off event following the first vehicle-off event, andin response to leak test conditions being met, applying pressure on the fuel system to provide a threshold fuel tank pressure;isolating the fuel system; andindicating a fuel system leak based on a rate of pressure change from the threshold fuel tank pressure being higher than the leak detection threshold. 11. The system of claim 10, wherein applying pressure on the fuel system includes applying a negative pressure on the fuel system, and wherein indicating a fuel system leak based on the rate of pressure change includes indicating a fuel system leak based on a rate of pressure bleed-up from the threshold fuel tank pressure to barometric pressure. 12. The system of claim 10, wherein leak test conditions being met includes the fuel tank pressure staying within the threshold range for a duration since the second vehicle-off event, wherein applying pressure on the fuel system includes operating the fuel pump to apply a positive pressure on the fuel system, and wherein indicating a fuel system leak based on the rate of pressure change includes indicating a fuel system leak based on a rate of pressure bleed-down from the threshold fuel tank pressure to barometric pressure. 13. The system of claim 10, wherein the controller includes further instructions for, during an engine-on condition following the first vehicle-off event, adjusting a fuel injection amount based on the estimated fuel volatility.