Methods are provided for controlling an engine. One method may include boosting engine intake air to a cylinder; and injecting an amount of a scavenging fluid into the cylinder based on an amount of cylinder residual exhaust gas. A scavenging fluid, such as water or windshield washer fluid evaporate
Methods are provided for controlling an engine. One method may include boosting engine intake air to a cylinder; and injecting an amount of a scavenging fluid into the cylinder based on an amount of cylinder residual exhaust gas. A scavenging fluid, such as water or windshield washer fluid evaporates on contact with the hot exhaust gases and hot metal components and the expanded volume of the vapor displaces the residual exhaust gas, thereby improving engine scavenging.
대표청구항▼
1. A method, comprising: boosting engine intake air to a cylinder; andinjecting an amount of a scavenging fluid into the cylinder based on an amount of cylinder residual exhaust gas. 2. The method of claim 1, wherein the scavenging fluid is one of water and windshield washer fluid. 3. The method of
1. A method, comprising: boosting engine intake air to a cylinder; andinjecting an amount of a scavenging fluid into the cylinder based on an amount of cylinder residual exhaust gas. 2. The method of claim 1, wherein the scavenging fluid is one of water and windshield washer fluid. 3. The method of claim 2, wherein injecting the amount of one of water and windshield washer fluid into the cylinder is via a direct injector. 4. The method of claim 2, wherein injecting the amount of one of water and windshield washer fluid, further comprises injecting the amount of one of water and windshield washer fluid in a second half of an exhaust stroke. 5. The method of claim 2, wherein injecting the amount of one of water and windshield washer fluid into the cylinder is via a port injector. 6. The method of claim 5, wherein injecting the amount of one of water and windshield washer fluid, further comprises injecting the amount of one of water and windshield washer fluid during valve overlap, an injection spray is aimed past an open valve at least partially into the cylinder. 7. The method of claim 5, wherein injecting the amount of one of water and windshield washer fluid, further comprises injecting the amount of one of water and windshield washer fluid at an end of an exhaust stroke immediately prior to an intake stroke and intake valve opening. 8. The method of claim 2, wherein water is injected via a direct injector in a second half of an exhaust stroke after combustion is more than 90% completed, the injected water vaporizing in the cylinder and pushing additional cylinder residual exhaust gas past an open exhaust valve, the water injected responsive to the amount of residual exhaust gas being greater than a threshold, and an extent of valve overlap of an intake and an exhaust valve being below a threshold. 9. The method of claim 2, wherein the amount of one of water and windshield washer fluid is increased responsive to an increased amount of residual exhaust gas, and further increased responsive to knock. 10. A method, comprising: if valve overlap is below a threshold, injecting an amount of one of water and windshield washer fluid into a cylinder during an exhaust stroke to increase scavenging; andif valve overlap is above a threshold, not injecting one of water and windshield washer fluid into the cylinder during the exhaust stroke. 11. The method of claim 10, further comprising, boosting engine intake air to the cylinder above exhaust pressure with valve overlap below the threshold, and adjusting variable valve timing to generate at least some valve overlap below the threshold. 12. The method of claim 10, further comprising, wherein an engine carries out combustion of a fuel other than one of water and windshield washer fluid in a cylinder cycle of the exhaust stroke, where said scavenging is performed at engine loads above an upper threshold where the engine is knock-limited 13. The method of claim 12, further comprising, adjusting variable valve timing to retard intake valve closure when a fluid level in a reservoir containing one of water and windshield washer fluid is below a threshold and knock is detected. 14. The method of claim 11, further comprising, reducing the boosting of engine intake air when the fluid level in the reservoir containing one of water and windshield washer fluid is below the threshold and knock is detected. 15. The method of claim 11, further comprising, retarding spark ignition when the fluid level in the reservoir containing one of water and windshield washer fluid is below the threshold and knock is detected. 16. The method of claim 11, further comprising, adjusting the amount of one of water and windshield washer injected into the cylinder based on an amount of residual exhaust gas. 17. An engine method, comprising: injecting an amount of fluid into a cylinder, the amount based on density and volume of residual exhaust gas in the cylinder, the fluid comprising water; andadjusting the amount based on feedback from an engine sensor. 18. The method of claim 17, wherein the engine sensor is a knock sensor and adjusting the amount of fluid based on feedback from the engine sensor further comprises increasing the amount of fluid injected responsive to knock. 19. The method of claim 17, wherein the engine sensor is an exhaust gas oxygen sensor and adjusting the amount of fluid based on feedback from the engine sensor further comprises increasing the amount of fluid injected responsive to excess oxygen. 20. The method of claim 17, wherein the engine sensor is an exhaust temperature sensor and adjusting the amount of fluid based on feedback from the engine sensor further comprises increasing the amount of fluid injected responsive to high temperature. 21. The method of claim 17, wherein the engine sensor is an exhaust constituent sensor and adjusting the amount of fluid based on feedback from the engine sensor further comprises decreasing the amount of fluid injected responsive to constituent in an exhaust flow.
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