Low pressure EGR control using throttling

What is claimed is: 1. A method comprising: providing a computer/controller constructed and arranged to receive one or more inputs regarding operating conditions of the vehicle or constructed and arranged to generate an input based upon at least one of calculations, look-up tables, or models; and utilizing the computer/controller and at least one input from sources external to the computer/controller or an input from the computer/controller to make a first determination as to whether enough exhaust gas is flowing through a low pressure exhaust gas recirculation conduit of a vehicle system, and if there is not enough exhaust gas flowing through a low pressure exhaust gas recirculation conduit of a vehicle system making a second determination as to whether a low pressure exhaust gas recirculation valve is completely open, and in response to at least one of the first determination or second determination, the computer/controller generating at least one output constructed and arranged to alter the amount of exhaust gas flowing through the low pressure exhaust gas recirculation conduit. 2. A method as set forth in claim 1 wherein the generating at least one output results in movement of the low pressure exhaust gas recirculation valve. 3. A method as set forth in claim 1 wherein if the computer/controller determines that there is not enough exhaust gas flowing through the low pressure exhaust gas recirculation conduit to meet a desired engine operating condition, the generating at least one output results in the low pressure EGR valve being moved to a completely open position. 4. A method as set forth in claim 1 further comprising using the computer/controller to determine if the low pressure exhaust gas recirculation valve is in a completely open position, and if the low pressure exhaust gas recirculation valve is in a completely open position the generating at least one output constructed and arranged to alter the amount of exhaust gas flowing through the low pressure exhaust gas recirculation conduit comprises moving at least one of an exhaust throttle valve to a position restricting the exhaust flow past the exhaust throttle valve or moving an air intake throttle valve to restrict air moving past the air intake valve. 5. A method as set forth in claim 1 wherein if the computer/controller determines that there is not enough exhaust gas flowing through the low pressure exhaust gas recirculation conduit to meet a desired engine operating condition, the generating at least one output produces an increase in the pressure differential across the low pressure exhaust gas recirculation conduit from an exhaust conduit to an air intake conduit. 6. A method as set forth in claim 1 further comprising using the computer/controller to determine if the low pressure exhaust gas recirculation valve is in a completely open position, and if the low pressure exhaust gas recirculation valve is in the completely open position the generating at least one output constructed and arranged to alter the amount of exhaust gas flowing through the low pressure exhaust gas recirculation conduit comprises restricting air moving past the air intake valve through a variable swirl device positioned in an air intake conduit up stream of the junction of a low pressure EGR conduit and the air intake conduit. 7. A method comprising adjusting the flow of EGR gas through a low pressure ERG conduit comprising: using a low pressure EGR valve and a variable swirl device, wherein the variable swirl device is positioned in an air intake conduit up stream of a junction of a low pressure EGR conduit and the air intake conduit; determining a flow of exhaust gas through the low pressure EGR conduit and whether the low pressure EGR valve is in a fully open position, and if the flow of exhaust gas does not meet a predetermined value and the low pressure EGR valve is not in the fully open position, at least one of moving the low pressure EGR valve to the fully open position or decreasing a flow of intake air through the variable swirl device. 8. A method comprising increasing the flow of EGR gas through a low pressure EGR conduit comprising: using a low pressure EGR valve and a variable swirl device, wherein the variable swirl device is positioned in an air intake conduit up stream of a junction of a low pressure EGR conduit and the air intake conduit; determining if the low pressure EGR valve is in a fully open position, if the low pressure EGR valve is not in the fully open position, then moving the low pressure EGR valve to the fully open position, and throttling a flow of intake air through the variable swirl device to decrease the pressure of the intake air at the junction of the low pressure EGR conduit and the air intake conduit, and to swirl intake air and low pressure EGR gas. 9. A method comprising: providing a computer/controller constructed and arranged to receive one or more inputs regarding operating conditions of the vehicle or constructed and arranged to generate an input based upon at least one of calculations, look-up tables, or models; and utilizing the computer/controller and at least one input from sources external to the computer/controller or an input from the computer/controller to determine whether enough exhaust gas is flowing through a low pressure exhaust gas recirculation conduit of a vehicle system, and in response to the determination, the computer/controller generating at least one output constructed and arranged to alter the amount of exhaust gas flowing through the low pressure exhaust gas recirculation conduit, and further comprising using the computer/controller to determine if a low pressure exhaust gas recirculation valve is in a completely open position, and if the low pressure exhaust gas recirculation valve is in a completely open position and wherein the generating at least one output constructed and arranged to alter the amount of exhaust gas flowing through the low pressure exhaust gas recirculation conduit comprises decreasing the flow of intake air through a variable swirl device positioned in an air intake conduit up stream of the junction of a low pressure EGR conduit and the air intake conduit.