Methods and systems are provided for improving fuel usage while addressing knock by adjusting the use of spark retard and direct injection of a knock control fluid based on engine operating conditions and the composition of the injected fluid. One or more engine parameters, such as EGR, VCT, boost,
Methods and systems are provided for improving fuel usage while addressing knock by adjusting the use of spark retard and direct injection of a knock control fluid based on engine operating conditions and the composition of the injected fluid. One or more engine parameters, such as EGR, VCT, boost, throttle position, and CMCV, are coordinated with the direct injection to reduce torque and EGR transients.
대표청구항▼
1. An engine system, comprising: an engine;a direct injector configured to direct inject fluid into an engine cylinder;a port injector configured to port inject fluid into the engine cylinder;a control system with computer readable instructions for, in response to knock,retarding ignition spark timi
1. An engine system, comprising: an engine;a direct injector configured to direct inject fluid into an engine cylinder;a port injector configured to port inject fluid into the engine cylinder;a control system with computer readable instructions for, in response to knock,retarding ignition spark timing up to a predetermined timing;direct injecting a first amount of fluid, the first amount based on a molar composition of the injected fluid and a dilution effect of the injected fluid and an evaporation effect of the injected fluid, and further based on a likelihood of pre-ignition;port injecting a second amount of fluid, the second amount based on the first amount; andadjusting an engine dilution based at least on the dilution effect of the injected fluid. 2. The system of claim 1, wherein the predetermined timing is based on engine operating conditions at the time of knock, and further based on the molar composition of the injected fluid. 3. The system of claim 2, wherein the injected fluid is a blend of at least two fluids, and wherein the molar composition of the fluid is based on a volumetric and/or molar fraction, molecular weight, and density of each fluid of the blend. 4. The system of claim 3, wherein the predetermined timing is retarded further away from MBT as a molar fraction of alcohol in the fuel blend increases. 5. The system of claim 3, wherein the first amount of fluid direct injected is increased as a molar fraction of alcohol decreases, and/or as the dilution effect of the injected fluid increases. 6. The system of claim 1, wherein adjusting the engine dilution includes, when the injected fluid has a higher dilution effect, increasing the first amount of direct injected fluid while adjusting VCT to decrease dilution; andwhen the injected fluid has a lower dilution effect, decreasing the first amount of direct injected fluid and maintaining VCT. 7. The system of claim 1, further comprising an EGR passage coupled between an engine intake and an engine exhaust, wherein adjusting the engine dilution includes, when the injected fluid has a higher dilution effect, increasing the first amount of direct injected fluid while reducing EGR; andwhen the injected fluid has a lower dilution effect, decreasing the first amount of direct injected fluid and maintaining EGR. 8. An engine method comprising, in response to engine knock, retarding ignition spark timing by a first amount and direct injecting a second amount of a fluid, the first amount of spark retard and the second amount of fluid injection adjusted based on a combination of inherent octane of the fluid, dilution effect of the fluid, and evaporation effect of the fluid and further based on a likelihood of pre-ignition. 9. The method of claim 8, wherein the adjustment includes increasing the second amount of fluid injection and decreasing the first amount of spark retard as the dilution effect of the injected fluid increases. 10. The method of claim 9, wherein the fluid includes one or more of ethanol, methanol, water, and gasoline. 11. The method of claim 10 further comprising adjusting an amount of boost based on the amount of direct injected fluid. 12. The method of claim 8 further comprising adjusting an amount of boost based on the amount of direct injected fluid. 13. A method of operating an engine, comprising, in response to engine knock, retarding ignition spark timing up to a predetermined timing and direct injecting an amount of fluid, the predetermined timing and amount of fluid direct injected adjusted based on a molar composition of the injected fluid and based on a likelihood of pre-ignition; andadjusting an amount of boost based on the amount of direct injected fluid. 14. The method of claim 13, wherein the injected fluid is a blend including a first fluid and a second fluid, and wherein a molar composition of the blend is based on a molar and/or volumetric fraction, molecular weight, and density of each of the first and second fluids in the blend. 15. The method of claim 14, wherein at least one of the first and second fluid is an alcohol, and wherein the adjustment includes decreasing the amount of fluid direct injected as a molar fraction of alcohol in the blended fluid increases. 16. The method of claim 15, wherein the predetermined timing is retarded further away from MBT as the molar fraction of alcohol in the blended fuel increases.
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