Method and apparatus for controlling the starting of a forced induction internal combustion engine

The invention claimed is: 1. A method for starting a forced induction internal combustion engine having a compressor assist device and an exhaust system, the exhaust system having an exhaust gas path, an exhaust gas aftertreatment device which is in the exhaust gas path, an exhaust gas recirculation path, and a recirculation valve in the exhaust gas recirculation path, such that, when the engine is turned on, exhaust gas may exit the engine into the exhaust gas path and at least part of the exhaust gas which has passed through the exhaust gas aftertreatment device may be recirculated to the engine air intake via the exhaust gas recirculation path, the method comprising the steps of: when engine start is demanded, determining from at least one measured parameter whether engine start difficulty is expected; if engine start difficulty is expected, turning on the compressor assist device to drive a forced induction compressor, thereby increasing the engine intake air pressure before starting the engine; starting the engine; returning the compressor assist device to normal operation when the engine exceeds a first performance threshold, and when the engine does not exceed the first performance threshold in a first period of time returning the compressor assist device to normal operation after a second extended period of time exceeding the first period of time, wherein the second extended period of time is determined from the at least one measured parameter; if engine start difficulty is expected, heating the exhaust gas aftertreatment device before turning on the engine so that residual air within the exhaust system is warmed by the exhaust gas aftertreatment device; opening the recirculation valve upon turning on the compressor assist device to allow warmed exhaust gases to recirculate to the engine air intake; and closing the recirculation valve to prevent warmed exhaust gases from recirculating to the engine air intake when the engine exceeds a second performance threshold, and when the engine does not exceed the second performance threshold in the second extended period of time closing the recirculation valve after the second extended period of time. 2. The method of claim 1 , wherein the at least one measured parameter comprises at least one of ambient air temperature, engine altitude, engine coolant temperature and fuel temperature. 3. A controller to control the starting of a forced induction internal combustion engine having a compressor assist device and an exhaust system, the exhaust system having an exhaust gas path, an exhaust gas aftertreatment device which is in the exhaust gas path, an exhaust gas recirculation path, and a recirculation valve in the exhaust gas recirculation path, such that, when the engine is turned on, exhaust gas may exit the engine into the exhaust gas path and at least part of the exhaust gas which has passed through the exhaust gas aftertreatment device may be recirculated to the engine air intake via the exhaust gas recirculation path, the controller being configured to: when engine start is demanded, determine from at least one measured parameter whether engine start difficulty is expected; if engine start difficulty is expected, turn on the compressor assist device to drive a forced induction compressor, thereby increasing the engine intake air pressure before starting the engine; start the engine; return the compressor assist device to normal operation when the engine exceeds a first performance threshold, and when the engine does not exceed the first performance threshold in a first period of time return the compressor assist device to normal operation after a second extended period of time exceeding the first period of time, wherein the second extended period of time is determined from the at least one measured parameter; if engine start difficulty is expected, turn on the heating of the exhaust gas aftertreatment device before turning on the engine so that residual air within the exhaust system is warmed by the exhaust gas aftertreatment device; open the recirculation valve upon turning on the compressor assist device to allow warmed exhaust gases to recirculate to the engine air intake; and close the recirculation valve to prevent warmed exhaust gases from recirculating to the engine air intake when the engine exceeds a second performance threshold, and when the engine does not exceed the second performance threshold in the second extended period of time closing the recirculation valve after the second extended period of time. 4. The controller of claim 3 , wherein the at least one measured parameter comprises at least one of ambient air temperature, engine altitude, engine coolant temperature and fuel temperature. 5. The controller of claim 3 , wherein the controller is part of an Engine Control Unit, or is a separate control unit. 6. A forced induction internal combustion engine comprising the controller defined in claim 3 . 7. A vehicle comprising the forced induction internal combustion engine defined in claim 6 . 8. A method for starting a forced induction internal combustion engine having a compressor assist device and an exhaust system, the exhaust system having an exhaust gas path, an exhaust gas aftertreatment device which is in the exhaust gas path, an exhaust gas recirculation path, and a recirculation valve in the exhaust gas recirculation path, such that, when the engine is turned on, exhaust gas may exit the engine into the exhaust gas path and at least part of the exhaust gas which has passed through the exhaust gas aftertreatment device may be recirculated to the engine air intake via the exhaust gas recirculation path, the method comprising the steps of: when engine start is demanded, determining from at least one measured parameter whether engine start difficulty is expected; if engine start difficulty is expected, turning on the compressor assist device to drive a forced induction compressor, thereby increasing the engine intake air pressure before starting the engine; starting the engine; returning the compressor assist device to normal operation when the engine exceeds a first performance threshold, and when the engine does not exceed the first performance threshold in a first period of time returning the compressor assist device to normal operation after a second extended period of time exceeding the first period of time, wherein the second extended period of time is determined from the at least one measured parameter; if engine start difficulty is expected, heating the exhaust gas aftertreatment device before turning on the engine so that residual air within the exhaust system is warmed by the exhaust gas aftertreatment device, wherein the warmed residual air is recirculated to a point upstream of the forced induction compressor such that the warmed residual air is compressed by the forced induction compressor before entering the engine air intake; opening the recirculation valve upon turning on the compressor assist device to allow warmed exhaust gases to recirculate to the engine air intake; and closing the recirculation valve to prevent warmed exhaust gases from recirculating to the engine air intake when the engine exceeds a second performance threshold, and when the engine does not reach the performance threshold in the second extended period of time closing the recirculation valve after the second extended period of time. 9. The method of claim 8 , wherein the at least one measured parameter comprises at least one of ambient air temperature, engine altitude, engine coolant temperature and fuel temperature.