Variable booster for hybrid pneumatic regenerative system

What is claimed: 1. A pneumatic regenerative system for a motorized vehicle, the pneumatic regenerative system being operatively coupled to an axle of the motorized vehicle that rotates when the motorized vehicle is propelled, the system comprising: an accumulator that is operable to receive and store pressurized air; a variable booster device operably coupled to the axle, where the variable booster device is operable to pressurize air to a first pressurized state during the braking event of the motorized vehicle, and where the variable booster device may vary an amount of air and a degree to which it is pressurized in the first pressurized state; and a pneumatic device operably coupled to the axle, the accumulator, and the variable booster device, the pneumatic device operable as an air compressor during the braking event, where the pneumatic device receives the air directly from the variable booster device at a first pressurized state, compresses the air to a second pressurized state, and expels the pressurized air to be stored within the accumulator. 2. The system of claim 1 , wherein the variable booster device includes an inlet and an outlet. 3. The system of claim 2 , wherein the variable booster device is reconfigurable between a first configuration, where the outlet is a first size, and a second configuration, where the outlet is a second size, the first size being larger than the second size. 4. The system of claim 3 , wherein the air is pressurized to a first pressure by the variable booster device when the outlet is in a first configuration and the air is pressurized to a second pressure by the variable booster device when the outlet is in a second configuration, the second pressure being larger than the first pressure. 5. The system of claim 2 , wherein the variable booster device comprises a sliding plate operable to reconfigure the variable booster device between the first configuration and the second configuration. 6. The system of claim 3 , further comprising: a controller logically coupled to the pneumatic device and the variable booster device. 7. The system of claim 6 , wherein the controller automatically reconfigures the variable booster device between the first configuration and the second configuration. 8. A variable booster device of a pneumatic regenerative system for a motorized vehicle, the variable booster device being fluidly coupled with a pneumatic device of the pneumatic regenerative system and being operable to pressurize air to a first pressurized state during a braking event of the motorized vehicle, the pneumatic device operable as an air compressor during the braking event, where the pneumatic device receives the air directly from the variable booster device at a first pressurized state and compresses the air to a second pressurized state, the variable booster device comprising: a main body having an inlet, an outlet, and an interior cavity, the inlet and the outlet are in fluid communication with the interior cavity; and a variable outlet mechanism coupled to the main body and covering the outlet, the variable outlet mechanism being reconfigurable between a first configuration, where the outlet is a first size, and a second configuration, where the outlet is a second size, the second size being smaller than the first size. 9. The variable booster device of claim 8 , wherein the variable booster device is configured to pressurize air a first amount when the variable outlet mechanism is in the first configuration and pressurize air a second amount when the variable outlet mechanism is in the second configuration, the second amount being greater than the first amount. 10. The variable booster device of claim 8 , further comprising: a first helical screw rotor disposed in the interior cavity; and a second helical screw rotor disposed within the interior cavity, wherein the first and second helical screws are intermeshed with one another. 11. The variable booster device of claim 10 , wherein the first helical screw rotor rotates in a first direction about a first longitudinal axis of the first helical screw rotor, and the second helical screw rotor rotates in a second direction about a second longitudinal axis of the second helical screw rotor, the second direction being opposite of the first direction, where rotation of the first helical screw rotor and the second helical screw rotor compresses the air within interior cavity of the main body of the variable booster device. 12. The variable booster device of claim 10 , wherein the pneumatic regenerative system is mechanically coupled to an axle of the motorized vehicle, the pneumatic regenerative system further comprises: a transfer case coupling the variable booster device and the pneumatic device to the axle of the motorized vehicle. 13. The variable booster device of claim 12 , wherein the transfer case includes a continuously variable transmission. 14. The variable booster device of claim 13 , wherein rotation of the axle operates the pneumatic device and drives rotation of the first helical screw rotor and the second helical screw rotor of the variable booster device via the continuously variable transmission. 15. The variable booster device of claim 14 , wherein the pneumatic regenerative system further comprises: a controller coupled to the transfer case, the variable booster device, and the pneumatic device, the controller automatically controlling the continuously variable transmission to optimize operation of the pneumatic motor and a rotational speed of the first helical screw rotor and the second helical screw rotor of the variable booster device during the braking event of the motorized vehicle. 16. The variable booster device of claim 15 , wherein the controller is further configured to: automatically alter the configuration of the variable outlet mechanism of the variable booster device during the braking event of the motorized vehicle. 17. The variable booster device of claim 8 , wherein the variable outlet mechanism comprises a plate slidingly coupled to the main body. 18. A pneumatic regenerative system for a motorized vehicle, the pneumatic regenerative system being operatively coupled to an axle of the motorized vehicle that rotates when the motorized vehicle is propelled, the system comprising: a variable booster device operably coupled to the axle so as to activate the variable booster to pressurize incoming air to a first pressurized state during a braking event of the motorized vehicle, wherein the variable booster device is reconfigurable to vary an amount of pressurization of the air; an air compressor coupled to and in fluid communication with the variable booster device, the air compressor operably coupled to the axle so as to activate the air compressor to receive air directly from the variable booster and pressurize the air to a second pressurized state during the braking operation of the motorized vehicle; an accumulator that is operable to receive and store pressurized air from the air compressor during the braking operation; and a pneumatic motor that receives the pressurized air from the accumulator to activate the pneumatic motor such that, during activation, the pneumatic motor provides energy to the axle during an acceleration event of the motorized vehicle. 19. The system of claim 18 , wherein the variable booster device includes an inlet and an outlet, and the variable booster device is selectively reconfigurable between a first configuration, where the outlet is a first size, and a second configuration, whe