System and methods for engine air path condensation management

The invention claimed is: 1. A method, comprising: routing air through a heat exchanger and into one or more combustion chambers of an engine; forming a condensate in said heat exchanger; routing said condensate to either said combustion chamber or a position in an engine exhaust based upon a contaminate in said condensate and operating parameters of the engine or a catalyst coupled to the engine exhaust; and reducing power to the engine when said contaminate includes engine coolant. 2. The method recited in claim 1 wherein said air routed into said combustion chambers is routed into an air intake system comprising: an air intake coupled to an intake manifold which is coupled to one or more intake runners each of which is coupled to one of said combustion chambers. 3. The method recited in claim 2 wherein said condensate is routed to a first position along said engine air intake system in a first mode of operation, a second position along the engine exhaust in a second mode of operation, and a third position along the engine exhaust in a third mode of operation. 4. The method recited in claim 3 wherein said first mode of operation comprises engine operation at a high load with said contaminate including engine oil. 5. The method recited in claim 3 wherein said first mode of operation comprises engine operation under fuel enrichment conditions with said contaminate including engine oil. 6. The method recited in claim 3 wherein said second position along the engine exhaust is upstream of the catalyst and said second mode of operation comprises engine operation at a high load with said contaminate being substantially free of engine oil. 7. The method recited in claim 3 wherein said second mode of operation comprises the catalyst operating at a temperature inferred to be above a predetermined temperature with said contaminate being substantially free of engine oil. 8. The method recited in claim 7 wherein catalyst temperature is inferred from one or more of the following variables: combustion air/fuel ratio, exhaust gas recirculation, engine speed, ignition timing, and airflow through the engine. 9. The method recited in claim 3 wherein said third position along the engine exhaust is downstream of the catalyst and said third mode of operation comprises engine operation at a low load and no significant engine oil is detected in said condensate. 10. The method recited in claim 9 wherein said third mode of operation with said condensate routed to said third position occurs more often than said second mode of operation with said condensate routed to said second position or said first mode of operation with said condensate routed to said first position. 11. The method of claim 1 wherein said heat exchanger comprises an air to air heat exchanger and includes a reservoir to collect said condensate. 12. The method recited in claim 2 wherein said heat exchanger comprises a liquid to air heat exchanger and said condensate is collected from said intake manifold. 13. A method for an engine system having an engine air intake system and a light off catalyst coupled to an engine exhaust, comprising: compressing air in a compressor driven by a turbo coupled to the engine exhaust upstream of the catalyst; forcing said compressed air through a heat exchanger into the engine air intake system; collecting condensate formed by the heat exchanger in a reservoir connected to said heat exchanger; when the engine is operating at a high load and engine oil is not present in said condensate, routing said condensate into the engine exhaust upstream of the catalyst and downstream of the turbo; when the engine is operating at a high load and engine oil is present in said condensate, routing said condensate into a position in the air intake system; and when the engine is operating at a low or moderate load, routing said condensate to either the air intake system or to the engine exhaust downstream of the catalyst. 14. The method recited in claim 13 wherein said condensate is routed into the engine exhaust upstream of the catalyst and downstream of the turbo when the engine is operating under fuel enrichment conditions and engine oil is not present in said condensate. 15. The method recited in claim 13 wherein said condensate is routed into the air intake system when engine oil is present in said condensate and the engine is operating under fuel enrichment conditions. 16. The method recited in claim 13 further comprising reducing power to the engine when engine coolant is present in said condensate. 17. The method recited in claim 13 wherein the air intake system comprises: an air intake coupled to an intake manifold which is coupled to one or more intake runners each of which is coupled to a combustion chamber of the engine. 18. An engine system having an engine air intake, and a light off catalyst coupled to an engine exhaust, comprising: a turbocharger having a compressor driven by a turbo coupled to the engine exhaust upstream of the catalyst; a heat exchanger having an input coupled to said compressor and an outlet coupled to the air intake system; a reservoir coupled to a bottom of said heat exchanger to collect condensate formed by the heat exchanger; at least one sensor to detect a presence of engine oil and a presence of engine coolant in said condensate; a first metering valve coupled between said reservoir and the air intake system; a second metering valve coupled between said reservoir and the engine exhaust upstream of the catalyst and downstream of said turbo; a third metering valve coupled between said reservoir and the engine exhaust downstream of the catalyst; and a controller to control said first, second and third metering valves based upon said detection of engine oil or absence of said engine oil, to route said condensate as follows: activating said first metering valve when the engine is operating at a high load and said detection indicates engine oil is present; and activating said second metering valve when the engine is operating at a high load and said detection indicates engine oil is not present. 19. The system recited in claim 18 wherein said controller activates said third metering valve when the engine is operating at a low or moderate load. 20. The system recited in claim 18 wherein said controller activates said first metering valve when the engine is operating at a low or moderate load.