Embodiments for detecting fuel events are presented. In an embodiment, a method comprises performing an action responsive to a fuel event indicated based on output from a hydrocarbon sensor positioned between a fuel tank and a fuel vapor canister. In this way, the hydrocarbon sensor may be used to d
Embodiments for detecting fuel events are presented. In an embodiment, a method comprises performing an action responsive to a fuel event indicated based on output from a hydrocarbon sensor positioned between a fuel tank and a fuel vapor canister. In this way, the hydrocarbon sensor may be used to detect fuel events and engine operation may be adjusted accordingly.
대표청구항▼
1. A method for a fuel system, comprising: unlocking a fuel door responsive to completion of depressurization of a fuel tank indicated based on output from a hydrocarbon sensor positioned in a line which couples the fuel tank with a fuel vapor canister. 2. The method of claim 1, further comprising i
1. A method for a fuel system, comprising: unlocking a fuel door responsive to completion of depressurization of a fuel tank indicated based on output from a hydrocarbon sensor positioned in a line which couples the fuel tank with a fuel vapor canister. 2. The method of claim 1, further comprising initiating a fuel system leak detection routine responsive to an engine-off event, and aborting the fuel system leak detection routine responsive to a fuel tank fill event. 3. The method of claim 2, wherein the fuel tank fill event is indicated when a hydrocarbon concentration in vapor flow from the fuel tank to the fuel vapor canister as measured by the hydrocarbon sensor increases by a threshold amount. 4. The method of claim 2, wherein initiating the fuel system leak detection routine comprises sealing the fuel system off from atmosphere and comparing a change in pressure in the fuel system to an expected change in pressure in the fuel system. 5. The method of claim 2, further comprising, if the fuel tank fill event is detected prior to the fuel system leak detection routine being initiated, delaying the fuel system leak detection routine until output from the hydrocarbon sensor indicates the fuel tank fill event is complete. 6. The method of claim 1, wherein unlocking the fuel door responsive to completion of the fuel tank depressurization indicated based on output from the hydrocarbon sensor comprises: commanding open a fuel tank isolation valve positioned between the hydrocarbon sensor and the fuel tank;indicating initiation of depressurization of the fuel tank when a hydrocarbon concentration in vapor flow from the fuel tank to the fuel vapor canister changes by a first threshold rate; andindicating completion of the depressurization of the fuel tank when the hydrocarbon concentration changes by less than a second threshold rate. 7. The method of claim 6, wherein the fuel tank isolation valve is commanded open in response to a refueling request. 8. A fuel system, comprising: a fuel tank storing fuel for an engine;a fuel vapor canister coupled to the fuel tank via a conduit;a hydrocarbon sensor positioned in the conduit between the fuel tank and the fuel vapor canister; anda controller storing non-transitory instructions to perform an action responsive to a fuel event indicated based on output from the hydrocarbon sensor. 9. The fuel system of claim 8, further comprising a canister purge valve coupling the fuel vapor canister to an intake manifold of the engine and a canister vent valve coupling the fuel vapor canister to atmosphere, and wherein the controller stores further instructions to perform a fuel system leak detection test by closing the canister vent valve and the canister purge valve and monitoring a subsequent change in fuel system pressure, wherein the hydrocarbon sensor is external to the fuel tank and external to the fuel vapor canister, but senses hydrocarbons in the conduit between the fuel tank and the fuel vapor canister. 10. The fuel system of claim 9, wherein the controller stores further instructions to, after the fuel system leak detection test is initiated, abort the fuel system leak detection test responsive to the fuel event. 11. The fuel system of claim 10, wherein the fuel event is a fuel tank fill event, and wherein the controller stores further instructions to indicate the fuel tank fill event is occurring when output from the hydrocarbon sensor indicates a hydrocarbon concentration in vapor flow from the fuel tank to the fuel vapor canister has increased by a threshold amount. 12. The fuel system of claim 9, wherein the action is opening a fuel door, and wherein the fuel event is completion of a fuel tank depressurization. 13. The fuel system of claim 12, further comprising: a fuel tank isolation valve positioned in the conduit between the fuel tank and the hydrocarbon sensor; anda refuel button on a vehicle dashboard for receiving an operator request for refueling. 14. The fuel system of claim 13, wherein the controller stores instructions to: in response to the operator request for refueling, command open the fuel tank isolation valve; anddelay unlocking of the fuel door until an indication of the fuel tank depressurization being completed is received. 15. The fuel system of claim 14, wherein the fuel tank depressurization being complete is indicated based on a hydrocarbon concentration in vapor flow from the fuel tank to the fuel vapor canister measured by the hydrocarbon sensor changing by a first threshold rate and then changing by less than a second threshold rate. 16. A method for a fuel system coupled to an engine, the fuel system comprising a fuel tank and a fuel vapor canister, comprising: responsive to initiation of an engine-off fuel system leak detection test, measuring a hydrocarbon concentration of a vapor flow between the fuel tank and the fuel vapor canister with a hydrocarbon sensor;determining a rate of change in the hydrocarbon concentration; andin response to the rate of change in the hydrocarbon concentration being greater than a threshold rate, aborting the engine-off fuel system leak detection test. 17. The method of claim 16, further comprising in response to the rate of change in the hydrocarbon concentration being less than the threshold rate, performing the engine-off fuel system leak detection test by sealing the fuel system off from atmosphere and comparing a change in pressure in the fuel system to an expected change in pressure in the fuel system. 18. The method of claim 16, further comprising, when the engine is operating in a fuel vapor storage mode, closing a canister purge valve and opening a canister vent valve to route fuel vapors from the fuel tank to the fuel vapor canister, and wherein aborting the test includes aborting the test after partially performing the test and without finishing performing the test. 19. The method of claim 16, further comprising, when the engine is operating in a fuel vapor purge mode, opening a canister purge valve and opening a canister vent valve to draw fresh air into the canister and route hydrocarbons stored in the fuel vapor canister to the engine.
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이 특허에 인용된 특허 (8)
Kidokoro Toru,JPX ; Ito Takaaki,JPX ; Hyodo Yoshihiko,JPX, Device for diagnosing malfunction in a fuel tank.
Steinbrenner Ulrich (Stuttgart DEX) Denz Helmut (Stuttgart DEX) Wild Ernst (Oberriexingen DEX), Tank-venting arrangement for a motor vehicle and method for checking the operability thereof.
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