초록 ▼

A method of operating an engine having at least one cylinder, the method comprising of directing a first air stream to an intake valve of the cylinder; directing a second, separate air stream to a second intake valve of the cylinder, said second air stream at a higher temperature than said first air

A method of operating an engine having at least one cylinder, the method comprising of directing a first air stream to an intake valve of the cylinder; directing a second, separate air stream to a second intake valve of the cylinder, said second air stream at a higher temperature than said first air stream; operating said first intake valve and adjusting at least one of an opening timing and a closing timing of said first intake valve to adjust engine output; and intermittently operating said second intake valve to maintain said higher temperature of said second air stream.

대표청구항 ▼

What is claimed is: 1. A method of operating an engine having at least one cylinder, the method comprising: directing a first air stream to an intake valve of the cylinder; directing a second, separate air stream to a second intake valve of the cylinder, said second air stream at a higher temperatu

What is claimed is: 1. A method of operating an engine having at least one cylinder, the method comprising: directing a first air stream to an intake valve of the cylinder; directing a second, separate air stream to a second intake valve of the cylinder, said second air stream at a higher temperature than said first air stream; operating said first intake valve and adjusting at least one of an opening timing and a closing timing of said first intake valve to adjust engine output while intermittently operating said second intake valve to maintain said higher temperature of said second air stream. 2. The method of claim 1, wherein during a spark ignition combustion mode said second intake valve is operated intermittently with respect to the operation of said first intake valve, where said first valve operates more frequently than said second valve. 3. The method of claim 1, wherein said first air stream provided to the cylinder by said first intake valve is substantially greater than said second air stream provided to the cylinder by said second intake valve. 4. The method of claim 1, wherein said second air stream is at least partially heated by a heat exchanger disposed upstream of the cylinder, and wherein the method further comprises varying said intermittent operation of said second valve as an amount of heat provided to the second air stream by the heat exchanger varies. 5. The method of claim 4, wherein said intermittent operation is varied to increase the amount of the second air stream provided to the cylinder as the amount of heat provided to the second air stream by the heat exchanger decreases. 6. The method of claim 4, wherein said intermittent operation is varied to decrease the amount of the second air stream provided to the cylinder as the amount of heating provided to the second air stream by the heat exchanger increases. 7. The method of claim 1, wherein said second air stream is at least partially heated by a heat exchanger disposed upstream of the cylinder, and wherein the method further comprises varying an amount of heat provided to the second air stream by the heat exchanger in response to said intermittent operation of said second intake valve. 8. The method of claim 1, wherein said intermittently operating said second intake valve includes varying the opening provided by said second intake valve via electric valve actuation to supply at least some flow of the second air stream to the cylinder. 9. The method of claim 1, wherein said cylinder is configured to selectively operate in a spark ignition mode and a compression ignition mode, and wherein said intermittent operation is varied to increase the amount of the second air stream provided to the cylinder for a plurality of instances prior to a transition from the spark ignition operation to the compression ignition operation. 10. The method of claim 1, further comprising operating said first intake valve and adjusting at least one of an opening timing and a closing timing of said first intake valve in response to said intermittent operation of the second intake valve. 11. The method of claim 10, wherein the amount of the first air stream provided to the cylinder is decreased in proportion to an increase in the amount of the second air stream provided to the cylinder by the intermittent operation of the second intake valve. 12. The method of claim 1 further comprising, wherein during a compression ignition combustion with the cylinder, operating the first intake valve and the second intake valve to control the timing of autoignition. 13. A method of operating an engine having at least one cylinder, at least a first intake passage operatively coupled to the cylinder for directing intake air to the cylinder, and a heat exchanger arranged along the first intake passage for heating the intake air passing through the first intake passage before reaching the cylinder, the method comprising: varying an amount of heat provided to the intake air by the heat exchanger in response to a combustion mode of the cylinder; and supplying heated intake air to the cylinder by intermittently operating a first intake valve, wherein said intermittent operation of the first intake valve is varied as the amount of heat provided to the intake air by the heat exchanger varies. 14. The method of claim 13, wherein the cylinder further includes a second intake passage bypassing the heat exchanger and operatively coupled to the cylinder for directing cooler intake air to the cylinder, the method further comprising, supplying the cooler intake air to the cylinder by operating a second intake valve in response to the intermittent operation of the first intake valve. 15. The method of claim 14, wherein the cooler intake valve is operated more frequently than the first intake valve. 16. The method of claim 15, wherein during a spark ignition operation, the second intake valve provides a greater amount of cooler intake air to the cylinder than the heated intake air provided by the first intake valve. 17. The method of claim 13, wherein the amount of heat provided to the intake air by the heat exchanger is further varied in response to gradual heating or cooling of the cylinder walls. 18. A method of operating an engine having at least a first and a second cylinder, wherein the second cylinder is configured to selectively operate in at least two operating modes including a first mode and a second mode, the method comprising: directing a first air stream to an intake valve of the first cylinder; directing a second, separate air stream to a second intake valve of the first cylinder, said second air stream at a higher temperature than said first air stream; operating said first intake valve and adjusting at least one of an opening timing and a closing timing of said first intake valve to adjust engine output; and varying an operation of said second intake valve in response to the operating mode of the second cylinder, wherein a greater ratio of the second air stream to the first air stream is provided to the first cylinder during the first mode than during the second mode. 19. The method of claim 18, wherein the first mode includes an activated state of the second cylinder and the second mode includes a deactivated state of the second cylinder. 20. The method of claim 18, wherein the first mode includes spark ignition combustion performed by the second cylinder and the second mode includes controlled auto-ignition combustion performed by the second cylinder. 21. A method of operating an engine having at least one cylinder including a first intake passage for directing air of a first temperature to the cylinder via a first intake valve and a second separate intake passage for directing air of a second temperature to the cylinder via a second intake valve, wherein said first temperature is greater than said second temperature, the method comprising: during a first cycle, operating said first intake valve with a longer lift duration than said second intake valve and injecting a first amount of fuel into the cylinder; and during a subsequent second cycle, operating said second intake valve with a longer lift duration than said first intake valve and injecting a second amount of fuel into the cylinder, wherein said second amount of fuel is based on least a timing of the first intake valve closing and a timing of the second intake valve closing. 22. The method of claim 18, where varying the operation of said second intake valve in response to the operating mode of the second cylinder further includes intermittently varying the operation of said second intake valve in response to the operating mode of the second cylinder to maintain the second air stream at the higher temperature.