An air induction system for a power system is provided having a compressor operable to compress air directed into an engine. In addition, the air induction system has a throttle valve disposed between the compressor and the engine, the throttle valve being configured to selectively restrict the flow
An air induction system for a power system is provided having a compressor operable to compress air directed into an engine. In addition, the air induction system has a throttle valve disposed between the compressor and the engine, the throttle valve being configured to selectively restrict the flow of compressed air into the engine. The air induction system also has a recirculation valve disposed between the compressor and the throttle valve, the recirculation valve being configured to selectively divert a portion of the flow of compressed air. Furthermore, the air induction system has a controller configured to actuate the recirculation valve in response to a pressure differential between air upstream of the throttle valve and air downstream of the throttle valve.
대표청구항▼
1. An air induction system for a power system, comprising: a compressor operable to compress air directed into an engine;a throttle valve disposed between the compressor and the engine, the throttle valve being configured to selectively restrict the flow of compressed air into the engine;a recircula
1. An air induction system for a power system, comprising: a compressor operable to compress air directed into an engine;a throttle valve disposed between the compressor and the engine, the throttle valve being configured to selectively restrict the flow of compressed air into the engine;a recirculation loop disposed between the compressor and the throttle valve, the recirculation loop including a recirculation valve configured to selectively divert a portion of the flow of compressed air away from the engine through the recirculation loop; anda controller configured to actuate the recirculation valve in response to a pressure differential between air upstream of the throttle valve and air downstream of the throttle valve to maintain a reserve of air upstream of the throttle valve at a higher pressure than a pressure of air downstream of the throttle valve, andthe controller further configured to open the recirculation valve to increase an amount of air flowing through the recirculation loop when the pressure differential is above a first threshold value and to close the recirculation valve to decrease the amount of air flowing through the recirculation loop when the pressure differential is below a second threshold value different than the first threshold value, such that the reserve of air is maintained at a pressure between the first and second threshold values for rapidly responding to transient loads on the engine. 2. The air induction system of claim 1, further including a first sensor disposed between the throttle valve and the engine and configured to sense a parameter indicative of the pressure of the air downstream of the throttle valve. 3. The air induction system of claim 2, further including a second sensor disposed between the compressor and the throttle valve and configured to sense a parameter indicative of the pressure of the air upstream of the throttle valve. 4. The air induction system of claim 3, wherein the controller is configured to actuate the recirculation valve in response to signals received from the first and second sensors. 5. The air induction system of claim 1, wherein the first or second threshold value corresponds to a difference between the pressure of the air upstream of the throttle valve and the pressure of the air downstream of the throttle valve of approximately 15 percent. 6. A method for maintaining a pressure differential between air upstream and downstream of a throttle valve, the method comprising: compressing a flow of air that flows into an engine;sensing a first parameter indicative of a pressure of air upstream of a throttle valve;sensing a second parameter indicative of a pressure of air downstream of the throttle valve;selectively diverting at least a portion of the compressed air in response to a difference between the pressure of the air upstream of the throttle valve and the pressure of the air downstream of the throttle valve, wherein selectively diverting includes using a controller to: determine the pressure differential by comparing the first parameter with the second parameter,compare the pressure differential to a first threshold and to a second threshold different from the first threshold, and either open a recirculation valve to divert more compressed air when the pressure differential is above the first threshold, or close the recirculation valve to divert less compressed air when the pressure differential is below the second threshold, to thereby maintain a reserve of charged air at a pressure between the first and second thresholds for rapidly responding to transient loads on the engine. 7. The method of claim 6, wherein at least one of the first and second thresholds corresponds to the first parameter exceeding the second parameter by approximately 15 percent. 8. The method of claim 6, wherein at least one of the first and second thresholds corresponds to the first parameter exceeding the second parameter by approximately 15.5 percent. 9. A power system, comprising: an engine configured to produce a power output; andan air induction system configured to direct compressed air into the engine, the air induction system comprising: a compressor operable to compress air directed into the engine;a throttle valve disposed between the compressor and the engine, the throttle valve being configured to selectively restrict the flow of compressed air into the engine;a recirculation loop disposed between the compressor and the throttle valve, the recirculation loop including a recirculation valve configured to selectively divert a portion of the flow of compressed air away from the engine through the recirculation loop; anda controller configured to actuate the recirculation valve in response to a pressure differential between air upstream of the throttle valve and air downstream of the throttle valve to maintain a reserve of air upstream of the throttle valve at a higher pressure than a pressure of air downstream of the throttle valve, by:determining the pressure differential between air upstream of the throttle valve and air downstream of the throttle valve,comparing the pressure differential to a first threshold and to a second threshold different from the first threshold, and either actuating the recirculation valve to increase the flow of compressed air in the recirculation loop when the pressure differential is above the first threshold, or actuating the recirculation valve to decrease the flow of compressed air in the recirculation loop when the pressure differential is below the second threshold, to thereby maintain the reserve of air at a pressure between the first and second thresholds for rapidly responding to transient loads on the engine. 10. The power system of claim 9, further including a first sensor disposed between the throttle valve and the engine and configured to sense a parameter indicative of a pressure of the air downstream of the throttle valve. 11. The power system of claim 10, further including a second sensor disposed between the compressor and the throttle valve and configured to sense a parameter indicative of a pressure of the air upstream of the throttle valve. 12. The power system of claim 11, wherein the controller is configured to actuate the recirculation valve in response to signals received from the first and second sensors. 13. The power system of claim 9, further including an air cooler disposed between the throttle valve and the engine. 14. The power system of claim 9, wherein the controller is configured to run a software application configured to control actuation of the recirculation valve in response to the pressure differential.
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