Air intake system for an off-road vehicle

The invention claimed is: 1. An air intake system for an off-road vehicle, comprising: a pre-cleaner having a plurality of tubes configured to receive a flow of air, to filter particulate material from the flow of air, and to provide the flow of air to an engine of the off-road vehicle; and a controller configured to: receive a first signal indicative of an air intake flow rate of the engine of the off-road vehicle; determine a target number of open tubes for the pre-cleaner of the air intake system based at least in part on the air intake flow rate of the engine and a desired air flow rate for each tube of the plurality of tubes; and output a second signal to a component of the air intake system indicative of instructions to enable the flow of air to the target number of open tubes and to block the flow of air to the remainder of tubes of the plurality of tubes. 2. The air intake system of claim 1 , wherein the component comprises a cover disposed proximate to an upstream surface of the pre-cleaner. 3. The air intake system of claim 2 , comprising a seal extending between the cover and the upstream surface of the pre-cleaner. 4. The air intake system of claim 2 , wherein the cover comprises layered radial shields configured to rotate about the pre-cleaner. 5. The air intake system of claim 2 , wherein the cover comprises layered shields slidingly coupled to the pre-cleaner. 6. The air intake system of claim 5 , wherein the layered shields are slidingly coupled to a track supported by an outer wall of the pre-cleaner. 7. The air intake system of claim 5 , wherein the layered shields are configured to stack relative to one another. 8. The air intake system of claim 1 , comprising an actuator configured to adjust the component of the pre-cleaner, wherein the controller is communicatively coupled to the actuator. 9. The air intake system of claim 8 , wherein the actuator is one of a hydraulic cylinder, a pneumatic cylinder, or an electric motor. 10. A method of operating an air intake system for an off-road vehicle: receiving a first signal indicative of an air intake flow rate of an engine of the off-road vehicle at a processor; determining, using the processor, a target number of open tubes for a pre-cleaner of the air intake system based at least in part on the air intake flow rate and a desired flow rate for each tube of a plurality of tubes of the pre-cleaner; and outputting, using the processor, a second signal to a component of the air intake system indicative of instructions to enable the flow of air to the target number of open tubes and to block the flow of air to the remainder of tubes of the plurality of tubes. 11. The method of claim 10 , comprising controlling, using the processor, an actuator to adjust a cover disposed adjacent to an upstream surface of the pre-cleaner to enable the flow of air to the target number of open tubes and to block the flow of air to the remainder of tubes of the plurality of tubes. 12. The method of claim 10 , comprising controlling, using the processor, a motor to rotate layered radial shields relative to an upstream surface of the pre-cleaner to enable the flow of air to the target number of open tubes and to block the flow of air to the remainder of tubes of the plurality of tubes. 13. The method of claim 10 , comprising receiving, using the processor, a third signal indicative of the desired flow rate for each tube of the plurality of tubes of the pre-cleaner from a memory device of the air intake system. 14. An air intake system for an off-road vehicle comprising: a pre-cleaner comprising a plurality of tubes configured to receive a flow of air and to filter particulate material from the flow of air; and a cover disposed proximate to an upstream surface of the pre-cleaner and configured to move relative to the plurality of tubes to enable the flow of air to a target number of open tubes and to block the flow of air to the remainder of tubes of the plurality of tubes, wherein the cover comprises layered shields configured to stack relative to one another. 15. The air intake system of claim 14 , comprising an actuator configured to adjust a position of the cover relative to the plurality of tubes, wherein the actuator comprises a hydraulic cylinder, a pneumatic cylinder, or an electric motor. 16. The air intake system of claim 14 , comprising a seal extending between the cover and the upstream surface of the pre-cleaner. 17. An air intake system for an off-road vehicle comprising: a pre-cleaner comprising a plurality of tubes configured to receive a flow of air and to filter particulate material from the flow of air; a cover disposed proximate to an upstream surface of the pre-cleaner and configured to move relative to the plurality of tubes to enable the flow of air to a target number of open tubes and to block the flow of air to the reminder of tubes of the plurality of tubes; and a controller configured to instruct an actuator to move the cover based at least in part on an air intake flow rate of an engine of the off-road vehicle and a desired air flow rate of each tube of the plurality of tubes. 18. An air intake system for an off-road vehicle comprising: a pre-cleaner comprising a plurality of tubes configured to receive a flow of air and to filter particulate material from the flow of air; and a cover disposed proximate to an upstream surface of the pre-cleanser and configured to move relative to the plurality of tubes to enable the flow of air to a target number of open tubes and to block the flow of air to the remainder of tubes of the plurality of tubes, wherein the cover comprises layered shields slidingly coupled to a track supported by an outer wall of the pre-cleaner. 19. An air intake system of for an off-road vehicle comprising: a pre-cleaner comprising a plurality of tubes configured to receive a flow of air and to filter particulate material from the flow of air; and a cover disposed proximate to an upstream surface of the pre-cleaner and configured to move relative to the plurality of tubes to enable the flow of air to a target number of open tubes and to block the flow of air to the remainder of tubes of the plurality of tubes, wherein the cover comprises layered radial shields extending radially outward from a center portion of the pre-cleaner to an outer wall of the pre-cleaner. 20. The air intake system of claim 19 , wherein the cover comprises layered shields configured to stack relative to one another.