Compound engine assembly with inlet lip anti-icing

The invention claimed is: 1. A compound engine assembly comprising: an inlet duct having an inlet in fluid communication with ambient air around the compound engine assembly, the inlet being surrounded by an inlet lip, the inlet lip including at least one conduit extending therethrough; a compressor having an inlet in fluid communication with the inlet duct; an engine core including at least one internal combustion engine in driving engagement with an engine shaft, the engine core having an inlet in fluid communication with an outlet of the compressor; a turbine section having an inlet in fluid communication with an outlet of the engine core, the turbine section including at least one turbine rotor connected to a turbine shaft, the turbine shaft in driving engagement with the engine shaft; an exhaust duct having an outlet in fluid communication with the ambient air around the compound engine assembly; a first exhaust conduit providing a fluid communication between an outlet of the turbine section and the exhaust duct; and a second exhaust conduit providing a fluid communication between the outlet of the turbine section and the at least one conduit of the inlet lip, the at least one conduit of the inlet lip also communicating with the ambient air around the compound engine assembly. 2. The compound engine assembly as defined in claim 1 , wherein the at least one conduit of the inlet lip communicates with the ambient air around the compound engine assembly through communication with the exhaust duct. 3. The compound engine assembly as defined in claim 1 , further comprising a valve regulating a fluid communication through the second exhaust conduit. 4. The compound engine assembly as defined in claim 1 , further comprising a heat exchanger in fluid communication with a coolant circulation system of the engine core, the inlet lip further comprising at least one coolant conduit each having an inlet in fluid communication with the coolant circulation system and an outlet in fluid communication with the heat exchanger. 5. The compound engine assembly as defined in claim 1 , wherein the compressor includes at least one compressor rotor connected to the turbine shaft. 6. The compound engine assembly as defined in claim 5 , wherein the turbine shaft is in driving engagement with the engine shaft through a gearbox located between the compressor and the turbine section. 7. The compound engine assembly as defined in claim 1 , wherein each of the at least one internal combustion engine includes a rotor sealingly and rotationally received within a respective internal cavity to provide rotating chambers of variable volume in the respective internal cavity, the rotor having three apex portions separating the rotating chambers and mounted for eccentric revolutions within the respective internal cavity, the respective internal cavity having an epitrochoid shape with two lobes. 8. The compound engine assembly as defined in claim 1 , wherein the turbine section includes a first stage turbine having an inlet in fluid communication with the outlet of the engine core, and a second stage turbine having an inlet in fluid communication with an outlet of the first stage turbine. 9. The compound engine assembly as defined in claim 7 , wherein the first stage turbine is configured as an impulse turbine with a pressure-based reaction ratio having a value of at most 0.2, the second stage turbine having a higher reaction ratio than that of the first stage turbine. 10. A compound engine assembly comprising: an inlet duct having an inlet in fluid communication with ambient air around the compound engine assembly, the inlet being surrounded by an inlet lip, the inlet lip including at least one conduit extending therethrough; a compressor having an inlet in fluid communication with the inlet duct, the compressor including at least one compressor rotor connected to a turbine shaft; an engine core including at least one rotary internal combustion engine each including a rotor sealingly and rotationally received within a respective internal cavity to provide rotating chambers of variable volume in the respective internal cavity, each of the at least one rotary internal combustion engine in driving engagement with an engine shaft, the engine core having an inlet in fluid communication with an outlet of the compressor; a turbine section having an inlet in fluid communication with an outlet of the engine core, the turbine section including at least one turbine rotor connected to the turbine shaft, the turbine shaft in driving engagement with the engine shaft; and an exhaust conduit providing a fluid communication between an outlet of the turbine section and the at least one conduit of the inlet lip, the at least one conduit of the inlet lip also communicating with the ambient air around the compound engine assembly. 11. The compound engine assembly as defined in claim 10 , wherein the assembly further comprises an additional exhaust conduit providing a fluid communication between the outlet of the turbine section and an exhaust duct communicating with the ambient air around the compound engine assembly. 12. The compound engine assembly as defined in claim 11 , wherein the at least one conduit of the inlet lip communicates with the ambient air around the compound engine assembly through communication with the exhaust duct. 13. The compound engine assembly as defined in claim 10 , further comprising a valve regulating a fluid communication through the exhaust conduit. 14. The compound engine assembly as defined in claim 10 , further comprising a heat exchanger in fluid communication with a coolant circulation system of the engine core, the inlet lip further comprising at least one coolant conduit each having an inlet in fluid communication with the coolant circulation system and an outlet in fluid communication with the heat exchanger. 15. The compound engine assembly as defined in claim 10 , wherein the turbine shaft is in driving engagement with the engine shaft through a gearbox located between the compressor and the turbine section. 16. The compound engine assembly as defined in claim 10 , wherein the rotor of each of the at least one rotary internal combustion engine has three apex portions separating the rotating chambers and mounted for eccentric revolutions within the respective internal cavity, the respective internal cavity having an epitrochoid shape with two lobes. 17. The compound engine assembly as defined in claim 10 , wherein the turbine section includes a first stage turbine having an inlet in fluid communication with the outlet of the engine core, and a second stage turbine having an inlet in fluid communication with an outlet of the first stage turbine. 18. The compound engine assembly as defined in claim 17 , wherein the first stage turbine is configured as an impulse turbine with a pressure-based reaction ratio having a value of at most 0.2, the second stage turbine having a higher reaction ratio than that of the first stage turbine. 19. A method of driving a rotatable load of an aircraft, the method comprising: directing ambient air from outside of the compound engine assembly into the compound engine assembly through an inlet duct; directing the air from the inlet duct to an inlet of a compressor; directing compressed air from an outlet of a compressor to an inlet of at least one internal combustion engine of a compound engine assembly; driving rotation of an engine shaft with the at least one combustion engine; driving rotation of a turbine shaft of a