Two stage turbocharger with cooling arrangement

What is claimed is: 1. A two stage turbocharger assembly for supplying charge air to an internal combustion engine, including: first and second stage turbochargers, and an aftercooler; the first stage turbocharger having a first compressor wheel driven in rotation by a first turbine wheel; the second stage turbocharger having a second compressor wheel driven in rotation by a second turbine wheel; the first and second turbine wheels being arranged in series in an exhaust flowpath to be driven in rotation by exhaust gas flowing through the exhaust flowpath; the second compressor wheel being arranged downstream of the first compressor wheel in a charge air flowpath to compress charge air flowing through the charge air flowpath; the aftercooler being arranged to cool the charge air flowing through the charge air flowpath downstream of the second compressor wheel; and further including a cooling flowpath, the cooling flowpath being arranged to direct a flow of charge air from the charge air flowpath downstream of the aftercooler to the second compressor wheel to cool the second compressor wheel; a wastegate openable to allow exhaust gas flowing through the exhaust flowpath to bypass the second turbine wheel, an actuator control system, and an actuator operable responsive to the actuator control system to open and close the wastegate, wherein the actuator is operated by air pressure in the cooling flowpath, and wherein the cooling flowpath rejoins the charge air flowpath without loss to atmosphere. 2. The two stage turbocharger assembly according to claim 1 , wherein the second compressor wheel is made from aluminum or aluminum alloy. 3. The two stage turbocharger assembly according to claim 1 , wherein the actuator control system is operable: to block the flow of charge air from the cooling flowpath to the second compressor wheel to operate the actuator to open the wastegate, and to release the flow of charge air from the cooling flowpath to the second compressor wheel to operate the actuator to close the wastegate. 4. The two stage turbocharger assembly according to claim 3 , wherein: the cooling flowpath is arranged to define a flow restriction upstream of the actuator, the actuator control system includes a valve arranged to block and release the flow of charge air from the cooling flowpath downstream of the actuator, and the actuator is operable by air pressure in the cooling flowpath between the flow restriction and the valve. 5. The two stage turbocharger assembly according to claim 1 , wherein the flow restriction is configured to generate suction to depressurise the actuator to close the wastegate by increasing velocity of the charge air flowing through the flow restriction. 6. A method of cooling a compressor wheel in a two stage turbocharger assembly for supplying charge air to an internal combustion engine, the assembly including: first and second stage turbochargers, and an aftercooler; the first stage turbocharger having a first compressor wheel driven in rotation by a first turbine wheel; the second stage turbocharger having a second compressor wheel driven in rotation by a second turbine wheel; the first and second turbine wheels being arranged in series in an exhaust flowpath to be driven in rotation by exhaust gas flowing through the exhaust flowpath; the second compressor wheel being arranged downstream of the first compressor wheel in a charge air flowpath to compress charge air flowing through the charge air flowpath; the aftercooler being arranged to cool the charge air flowing through the charge air flowpath downstream of the second compressor wheel; and further including a wastegate operable to allow exhaust gas flowing through the exhaust flowpath to bypass the second turbine wheel, an actuator control system, and an actuator operable response to the actuator control system to open and close the wastegate, wherein the actuator is operated by air pressure in the cooling flowpath, and wherein the cooling flowpath rejoins the charge air flowpath without loss to atmosphere; the method including: directing a flow of charge air from the charge air flowpath downstream of the aftercooler, via a cooling flowpath, to the second compressor wheel to cool the second compressor wheel. 7. The method according to claim 6 , further including operating the actuator control system: to block the flow of charge air from the cooling flowpath to the second compressor wheel to operate the actuator to open the wastegate, and to release the flow of charge air from the cooling flowpath to the second compressor wheel to operate the actuator to close the wastegate. 8. The method according to claim 7 , further including: arranging the cooling flowpath to define a flow restriction upstream of the actuator, providing the actuator control system with a valve, the, valve being arranged to block and release the flow of charge air from the cooling flowpath downstream of the actuator, and operating the actuator by air pressure in the cooling flowpath between the flow restriction and the valve.