초록 ▼

Systems and methods for controlling regeneration of a particulate filter downstream of an engine in a vehicle are provided herein. One exemplary method includes, during first engine shutdown conditions, increasing excess oxygen to the particulate filter, and regenerating the particulate filter at le

Systems and methods for controlling regeneration of a particulate filter downstream of an engine in a vehicle are provided herein. One exemplary method includes, during first engine shutdown conditions, increasing excess oxygen to the particulate filter, and regenerating the particulate filter at least during a portion of engine shutdown. The method further includes during second engine shutdown conditions, decreasing the excess oxygen to the particulate filter at least during a portion of engine shutdown.

대표청구항 ▼

1. A method for controlling regeneration of a particulate filter positioned downstream of a vehicle's engine, comprising: during first engine shutdown conditions with particulate filter regeneration, increasing excess oxygen to a particulate filter, and regenerating the particulate filter at least d

1. A method for controlling regeneration of a particulate filter positioned downstream of a vehicle's engine, comprising: during first engine shutdown conditions with particulate filter regeneration, increasing excess oxygen to a particulate filter, and regenerating the particulate filter at least during a portion of engine shutdown; andduring second engine shutdown conditions without particulate filter regeneration, decreasing the excess oxygen to the particulate filter at least during a portion of engine shutdown. 2. The method of claim 1, where an amount of stored particulate at the particulate filter at a last combustion is greater during first engine shutdown conditions than during second engine shutdown conditions. 3. The method of claim 1, where the increasing of excess oxygen to the particulate filter includes increasing a throttle opening of a throttle positioned upstream of the engine, and where the decreasing of the excess oxygen includes reducing the throttle opening. 4. The method of claim 1, where, during first engine shutdown conditions, the increasing of excess oxygen to the particulate filter is carried out while a temperature of the particulate filter is within a predetermined temperature range. 5. The method of claim 1, where during first engine shutdown conditions, the increasing of excess oxygen to the particulate filter occurs during engine spin-down, and where a regeneration reaction occurs during engine rest. 6. The method of claim 1, further comprising, during the first engine shutdown conditions, adjusting an air-fuel ratio for one or more last combustions to be leaner than an air-fuel ratio for one or more last combustions during the second engine shutdown conditions. 7. The method of claim 2, further comprising, during the first engine shutdown conditions, nominally retarding a spark timing for the last combustion, wherein fresh air is introduced to the engine, and passed through to the particulate filter while the engine spins but does not combust. 8. The method of claim 1, further comprising, regenerating the particulate filter before first engine shutdown conditions are met, and where the regenerating during first engine shutdown conditions includes continuing the regenerating. 9. The method of claim 1, further comprising not regenerating the particulate filter before the second engine shutdown conditions are met. 10. The method of claim 1, where the increasing of excess oxygen to the particulate filter includes increasing a ram-air valve opening in a ram-air conduit having an outlet upstream of the particulate filter, if the vehicle is moving. 11. A system for controlling regeneration of a particulate filter downstream of an engine of a vehicle, the system comprising: a plurality of cylinders positioned downstream of an intake manifold having a throttle;a particulate filter downstream of the plurality of cylinders; andan electronic controller with a computer-readable storage medium including instructions to: during first engine shutdown conditions with particulate filter regeneration, increase excess oxygen to the particulate filter, and regenerate the particulate filter at least during a portion of engine shutdown, andduring second engine shutdown conditions without particulate filter regeneration, decrease excess oxygen to the particulate filter at least during a portion of engine shutdown. 12. The system of claim 11, where the engine is a direct-injection, spark-ignition engine. 13. The system of claim 11, further comprising: a turbocharger including a turbine and a compressor; andan HP EGR passage having a first opening downstream of the throttle and upstream of the plurality of cylinders, a second opening downstream of the turbine and upstream of the particulate filter, and an HP EGR valve positioned between the first opening and second opening;where the electronic controller further includes instructions to, during a non-combusting portion of the first engine shutdown conditions, stop the engine at a position where the cylinders are closed, and increase an HP EGR valve opening. 14. The system of claim 11, further comprising: a three-way catalyst upstream of the particulate filter; andan oxygen sensor downstream of the three-way catalyst and upstream of the particulate filter for detecting an amount of excess oxygen directed to the particulate filter;where the electronic controller further includes instructions to adjust an amount of excess oxygen by adjusting one or more of a throttle opening, an EGR valve opening, and an engine speed, based on the amount of excess oxygen detected by the oxygen sensor. 15. The system of claim 14, further comprising a temperature sensor for detecting a particulate filter temperature, where the electronic controller further includes instructions to adjust one or more of spark timing, an air-fuel ratio and the amount of excess oxygen directed to the particulate filter based on the particulate filter temperature. 16. A method for controlling airflow to a particulate filter positioned downstream of a vehicle's engine, comprising: during first engine shutdown conditions with particulate filter regeneration, increasing a throttle opening and regenerating the particulate filter; andduring second engine shutdown conditions without particulate filter regeneration, decreasing the throttle opening. 17. The method of claim 16, where an amount of stored particulate at the particulate filter at a last combustion is greater during first engine shutdown conditions than during second engine shutdown conditions. 18. The method of claim 16, further comprising controlling exhaust heat to maintain a particulate filter temperature above a low temperature threshold during the first engine shutdown conditions. 19. The method of claim 16, further comprising adjusting the throttle opening based on feedback from an exhaust sensor. 20. The method of claim 16, further comprising, during first engine shutdown conditions, positioning an intake valve of a cylinder to be at least partially open and an exhaust valve of the cylinder to be at least partially open such that air can flow therethrough.