Methods and systems are provided for determining a load of a canister included in an evaporative emissions system of a vehicle. One example method comprises flowing each of purge vapors, refueling vapors, and breakthrough vapors through a common hydrocarbon sensor and using output from the hydrocarb
Methods and systems are provided for determining a load of a canister included in an evaporative emissions system of a vehicle. One example method comprises flowing each of purge vapors, refueling vapors, and breakthrough vapors through a common hydrocarbon sensor and using output from the hydrocarbon sensor based on the flowing of different vapors to estimate the load of the canister.
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1. A method for an evaporative emissions system in a vehicle, comprising: routing each of a fuel vapor purge flow from a fuel vapor canister, a loading flow into the fuel vapor canister including refueling vapors, and a breakthrough fuel vapor flow from the fuel vapor canister through a hydrocarbon
1. A method for an evaporative emissions system in a vehicle, comprising: routing each of a fuel vapor purge flow from a fuel vapor canister, a loading flow into the fuel vapor canister including refueling vapors, and a breakthrough fuel vapor flow from the fuel vapor canister through a hydrocarbon sensor; anddetermining a fuel vapor load of the fuel vapor canister based on output from the hydrocarbon sensor during each of the routings. 2. The method of claim 1, wherein the fuel vapor purge flow from the fuel vapor canister is delivered to an intake manifold of an engine of the vehicle, the loading flow into the fuel vapor canister is received from a fuel tank coupled in the vehicle, and the breakthrough fuel vapor flow is directed to atmosphere from the fuel vapor canister. 3. The method of claim 2, wherein the loading flow into the fuel vapor canister from the fuel tank further includes diurnal vapors and running loss vapors. 4. The method of claim 3, wherein the output from the hydrocarbon sensor includes a first amount of fuel vapors in the loading flow, a second amount of fuel vapors in the fuel vapor purge flow, and a third amount of fuel vapors in the breakthrough fuel vapor flow. 5. The method of claim 4, wherein determining the fuel vapor load of the fuel vapor canister based on the output from the hydrocarbon sensor includes subtracting each of the second amount of fuel vapors in the fuel vapor purge flow and the third amount of fuel vapors in the breakthrough fuel vapor flow from the first amount of fuel vapors in the loading flow. 6. The method of claim 2, wherein the vehicle is a hybrid vehicle, and wherein the loading flow into the fuel vapor canister from the fuel tank further includes diurnal vapors. 7. The method of claim 1, further comprising adjusting a three-way valve to route each of the fuel vapor purge flow, the loading flow, and the breakthrough fuel vapor flow through the hydrocarbon sensor. 8. The method of claim 1, further comprising enabling a canister purge operation if the fuel vapor load of the fuel vapor canister is higher than a load threshold. 9. A method, comprising: adjusting a three-way valve to a first position to flow purge vapors from a canister through a hydrocarbon sensor;adjusting the three-way valve to a second position to flow refueling vapors from a fuel tank into the canister via the hydrocarbon sensor;adjusting the three-way valve to a third position to flow breakthrough vapors from the canister into atmosphere via the hydrocarbon sensor; anddetermining a load of the canister based on output from the hydrocarbon sensor during each adjusting of the three-way valve. 10. The method of claim 9, further comprising initiating a canister purge in response to the load of the canister being higher than a threshold load. 11. The method of claim 9, wherein the hydrocarbon sensor estimates each of an amount of purge vapors desorbed from the canister during a canister purge, an amount of refueling vapors adsorbed into the canister from the fuel tank, and an amount of breakthrough vapors exiting the canister. 12. The method of claim 11, wherein each of the amount of breakthrough vapors and the amount of purge vapors is subtracted from the amount of refueling vapors to determine a change in canister load, and wherein the load of the canister is determined by adding the change in canister load to a previously determined load of the canister. 13. The method of claim 12, wherein the previously determined load of the canister is stored in a memory of a controller. 14. The method of claim 12, wherein the load of the canister is determined in response to each of a purging operation, a refueling operation, and an engine-off mode of operation of a vehicle, the vehicle being a hybrid vehicle. 15. A system for a vehicle, comprising: an engine;a fuel system including a fuel tank;a fuel system canister including a loading port, a purge port, and a vent port;a canister purge valve;a vent line coupling the fuel system canister to a fresh air source;a three-way valve coupled to a hydrocarbon sensor, the three-way valve coupled to each of the loading port, the purge port, and the vent port of the fuel system canister, and the canister purge valve, the vent line, and the fuel tank; anda controller configured with computer readable instructions stored on non-transitory memory for: in response to a purging operation, adjusting a position of the three-way valve to fluidically couple the hydrocarbon sensor to the purge port of the fuel system canister;in response to a refueling event,adjusting the position of the three-way valve to fluidically couple the hydrocarbon sensor to the loading port of the fuel system canister; andin response to one of a non-combusting mode of vehicle operation and a vehicle park mode,adjusting the position of the three-way valve to fluidically couple the hydrocarbon sensor to the vent port of the fuel system canister. 16. The system of claim 15, wherein during the purging operation, desorbed fuel vapors flow from the purge port of the fuel system canister via the three-way valve, the hydrocarbon sensor, and the canister purge valve into an intake manifold of the engine, and wherein the hydrocarbon sensor measures an amount of desorbed fuel vapors flowing therethrough. 17. The system of claim 16, wherein during the refueling event, refueling vapors flow from the fuel tank to the loading port of the fuel system canister via the three-way valve and the hydrocarbon sensor, and wherein the hydrocarbon sensor measures an amount of refueling vapors flowing therethrough. 18. The system of claim 17, wherein during one of the non-combusting mode of vehicle operation and vehicle park mode, breakthrough fuel vapors flow from the vent port of the fuel system canister via the three-way valve and the hydrocarbon sensor through the vent line into atmosphere, and wherein the hydrocarbon sensor measures an amount of breakthrough fuel vapors flowing therethrough. 19. The system of claim 18, wherein the controller includes additional instructions for determining a load of the fuel system canister based on each of the amount of desorbed fuel vapors, the amount of refueling vapors, and the amount of breakthrough fuel vapors.
Curran Patrick J. (Farmington Hills MI) Niessen Paul M. (Canton MI) Schwager Bryce A. (Ypsilanti MI), Method and system for monitoring evaporative purge flow.
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