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A method is provided, comprising indicating a fuel vapor canister load based on a steady-state fuel vapor circulation rate in a vapor recovery line during a refueling event; and adjusting a canister purging operation in response to the indicated fuel vapor canister load. Restrictions in the vapor re

A method is provided, comprising indicating a fuel vapor canister load based on a steady-state fuel vapor circulation rate in a vapor recovery line during a refueling event; and adjusting a canister purging operation in response to the indicated fuel vapor canister load. Restrictions in the vapor recovery line may increase the rate of fuel vapor canister loading during a refueling event. In this way, an accurate canister load may be determined following a refueling event, and canister purging operations adjusted accordingly.

대표청구항 ▼

1. A method, comprising: indicating a fuel vapor canister load based on a steady-state fuel vapor circulation rate and inferring vapor recovery line restrictions and canister vent pathway restrictions in a vapor recovery line during a refueling event; andadjusting a canister purging operation in res

1. A method, comprising: indicating a fuel vapor canister load based on a steady-state fuel vapor circulation rate and inferring vapor recovery line restrictions and canister vent pathway restrictions in a vapor recovery line during a refueling event; andadjusting a canister purging operation in response to the indicated fuel vapor canister load. 2. The method of claim 1, further comprising: adjusting a canister purge schedule for a fuel vapor canister based on the indicated fuel vapor canister load. 3. The method of claim 1, further comprising: indicating degradation of the vapor recovery line based on the steady-state fuel vapor circulation rate in the vapor recovery line during the refueling event. 4. The method of claim 1, further comprising: indicating a fuel vapor canister loading rate based on the steady-state fuel vapor circulation rate in the vapor recovery line during the refueling event. 5. The method of claim 4, wherein the fuel vapor canister loading rate is further based on a rate of fuel dispensation during the refueling event. 6. The method of claim 5, wherein the rate of fuel dispensation during the refueling event is based on an output of a fuel level indicator over time. 7. The method of claim 4, wherein the fuel vapor canister loading rate is based on a maximum fuel vapor canister loading rate, the maximum fuel vapor canister loading rate based on a fuel vapor canister loading rate wherein no circulation of fuel vapor through the vapor recovery line takes place during the refueling event. 8. The method of claim 1, wherein the steady-state fuel vapor circulation rate is based at least in part on a steady-state pressure in the vapor recovery line during the refueling event, and wherein inferring vapor recovery line restrictions and canister vent pathway restrictions is based on the steady-state fuel vapor circulation rate and a fuel tank pressure in the vapor recovery line during the refueling event. 9. The method of claim 1, wherein the steady-state fuel vapor circulation rate is based at least in part on a steady-state output of a hydrocarbon sensor in the vapor recovery line during the refueling event. 10. A fuel system for a vehicle, comprising: a fuel tank coupled to a fuel vapor canister;a fuel tank pressure transducer coupled to the fuel tank;a fuel filler neck coupled to the fuel tank;a vapor recovery line coupled between the fuel tank and the fuel filler neck;a vapor recovery line fuel vapor circulation sensor coupled within the vapor recovery line; anda controller with instructions stored in non-transitory memory, that when executed cause the controller to: monitor a fuel vapor circulation rate in the vapor recovery line during a refueling event;indicate a fuel vapor canister load based on a steady-state vapor recovery line fuel vapor circulation rate during the refueling event;monitor a fuel tank pressure during the refueling event; andindicate a fuel vapor circulation pathway restriction based on the steady-state vapor recovery line fuel vapor circulation rate and a steady-state fuel tank pressure during the refueling event. 11. The fuel system of claim 10, further comprising: a fuel level indicator coupled within the fuel tank;wherein the controller is further configured with instructions in non-transitory memory, that when executed cause the controller to: indicate a rate of fuel dispensation based on an output of the fuel level indicator during the refueling event; andindicate the fuel vapor canister load based on the rate of fuel dispensation. 12. The fuel system of claim 11, wherein the controller is further configured with instructions in non-transitory memory, that when executed cause the controller to: indicate an expected vapor recovery line fuel vapor circulation rate based on the rate of fuel dispensation; andindicate degradation of the vapor recovery line responsive to the steady-state vapor recovery line fuel vapor circulation rate being less than the expected vapor recovery line fuel vapor circulation rate by more than a threshold. 13. The fuel system of claim 12, wherein the controller is further configured with instructions in non-transitory memory, that when executed cause the controller to: responsive to the steady-state vapor recovery line fuel vapor circulation rate being within a threshold of than the expected vapor recovery line fuel vapor circulation rate, indicate the fuel vapor canister load based on an expected fuel vapor canister loading rate. 14. The fuel system of claim 13, wherein the expected fuel vapor canister loading rate is based on a volume of the vapor recovery line. 15. The fuel system of claim 10, wherein the controller is further configured with instructions stored in non-transitory memory, that when executed, cause the controller to:indicate a canister vent pathway restriction based on the steady-state fuel tank pressure during the refueling event. 16. The fuel system of claim 15, wherein indicating the canister vent pathway restriction includes indicating a degree of restriction of a canister vent pathway. 17. The fuel system of claim 16, wherein indicating the canister vent pathway restriction further includes indicating an expected duration prior to a threshold degree of canister restriction. 18. The fuel system of claim 12, wherein the controller is further configured with instructions stored in non-transitory memory, that when executed, cause the controller to: indicate a canister vent pathway restriction, but not degradation of the vapor recovery line responsive to the steady-state vapor recovery line fuel vapor circulation rate greater than the expected vapor recovery line fuel vapor circulation rate. 19. A method for a fuel system, comprising: responsive to a refueling request, opening a fuel tank isolation valve coupled between a fuel tank and a fuel vapor canister;indicating a pre-refueling canister load based on a canister load and a fuel tank pressure prior to opening the fuel tank isolation valve;monitoring a fuel level over time, the fuel tank pressure, and a pressure in a vapor recovery line over time during a refueling event;indicating a rate of fuel vapor canister loading based on a steady-state fuel level rate of change and further based on a steady-state fuel vapor circulation rate during the refueling event;indicating an updated canister load based on the pre-refueling canister load and the rate of fuel vapor canister loading during the refueling event;indicating a fuel vapor recovery line restriction and a canister vent pathway restriction based on the steady-state fuel vapor circulation rate and the fuel tank pressure; andupdating a canister purge schedule based on the updated canister load and one or more restrictions. 20. The method of claim 19, further comprising: indicating an expected fuel vapor circulation rate based on the steady-state fuel level rate of change during the refueling event;indicating degradation of the vapor recovery line responsive to the steady-state fuel vapor circulation rate during the refueling event being less than the expected fuel vapor circulation rate by more than a threshold;adjusting the rate of fuel vapor canister loading based on the indicated degradation of the vapor recovery line; andindicating the updated canister load based on the adjusted rate of fuel vapor canister loading.