Turboprop engine assembly with combined engine and cooling exhaust

The invention claimed is: 1. A turboprop engine assembly for an aircraft, the turboprop engine assembly comprising: an internal combustion engine having a liquid coolant system, the internal combustion engine drivingly engaged to a propeller; an air duct in fluid communication with an environment of the aircraft; a heat exchanger received within the air duct, the heat exchanger having coolant passages in fluid communication with the liquid coolant system and air passages in heat exchange relationship with the coolant passages, the air passages in fluid communication with the air duct; and an exhaust duct in fluid communication with an exhaust of the internal combustion engine, the exhaust duct having an outlet positioned within the air duct downstream of the heat exchanger and upstream of an outlet of the air duct, the outlet of the exhaust duct spaced inwardly from a peripheral wall of the air duct, an annular space being defined between the exhaust duct and the peripheral wall of the air duct, the annular space having a cross-sectional area greater than that of the outlet of the exhaust duct. 2. The turboprop engine assembly as defined in claim 1 , wherein the exhaust duct is in fluid communication with an exhaust of the internal combustion engine through a turbine section including at least one turbine compounded with the internal combustion engine. 3. The turboprop engine assembly as defined in claim 1 , wherein the exhaust duct extends through a portion of the air duct from a location upstream of the heat exchanger to a location downstream of the heat exchanger. 4. The turboprop engine assembly as defined in claim 1 , wherein at least part of the outlet of the air duct is selectively closable by a plurality of movable flaps. 5. The turboprop engine assembly as defined in claim 1 , wherein the peripheral wall of the air duct is made of a material selected from a group consisting of: an aluminum alloy, a composite material, and a polymer. 6. The turboprop engine assembly as defined in claim 1 , further comprising an additional heat exchanger received within the air duct, the additional heat exchanger having additional coolant passages in fluid communication with a cooling and lubricating system of the turboprop engine assembly and additional air passages in heat exchange relationship with the additional coolant passages and in fluid communication with the air duct, the liquid coolant system of the internal combustion engine being distinct from the cooling and lubricating system of the turboprop engine assembly. 7. The turboprop engine assembly as defined in claim 6 , wherein the heat exchanger and the additional heat exchanger are disposed in parallel in the air duct, and the exhaust duct extends in the air duct between the heat exchanger and the additional heat exchanger. 8. The turboprop engine assembly as defined in claim 1 , wherein the internal combustion engine is a Wankel rotary engine including a rotor having three apex portions mounted for eccentric revolutions within an internal cavity defined in a housing, the internal cavity having an epitrochoid shape with two lobes. 9. The turboprop engine assembly as defined in claim 1 , wherein a ratio of a diameter of the outlet of the exhaust duct on a diameter of the air duct in a plane transverse to the outlet of the exhaust duct is from 0.2 to 0.4. 10. A turboprop engine assembly for an aircraft, the turboprop engine assembly comprising: an internal combustion engine having a liquid coolant system, the internal combustion engine drivingly engaged to a propeller; a turbine section having an inlet in fluid communication with an outlet of the internal combustion engine, the turbine section including at least one turbine compounded with the internal combustion engine; an air duct having an inlet positioned aft of the propeller and an outlet positioned aft of the inlet, the inlet and outlet both in fluid communication with an environment of the aircraft; a heat exchanger in fluid communication with the liquid coolant system and located in the air duct, at least part of a fluid communication between the inlet and outlet of the air duct being performed through the heat exchanger; and an exhaust duct in fluid communication with an exhaust of the turbine section, the exhaust duct having an outlet positioned within the air duct downstream of a fan and upstream of the outlet of the air duct, the outlet of the exhaust duct spaced inwardly from a peripheral wall of the air duct so that, in use, a flow of cooling air through the air duct surrounds a flow of exhaust gases out of the exhaust duct, an open cross-sectional area of the outlet of the exhaust duct being smaller than an open cross-sectional area of the air duct, the open cross-sectional area of the air duct being transverse to the flow of cooling air and surrounding radially the outlet of the exhaust duct. 11. The turboprop engine assembly as defined in claim 10 , wherein the turbine section includes first and second turbine stages having different reaction ratios from one another. 12. The turboprop engine assembly as defined in claim 10 , wherein the exhaust duct extends through a portion of the air duct from a location upstream of the heat exchanger to a location downstream of the heat exchanger. 13. The turboprop engine assembly as defined in claim 10 , wherein at least part of the outlet of the air duct is selectively closable by a plurality of movable flaps. 14. The turboprop engine assembly as defined in claim 10 , wherein the peripheral wall of the air duct is made of a material selected from a group consisting of: an aluminum alloy, a composite material, and a polymer. 15. The turboprop engine assembly as defined in claim 10 , further comprising an additional heat exchanger in fluid communication with a cooling and lubricating system of the turboprop engine assembly and located in the air duct, at least another part of the fluid communication between the inlet and outlet of the air duct being performed through the additional heat exchanger, the liquid coolant system of the internal combustion engine being distinct from the cooling and lubricating systems of the turboprop engine assembly. 16. The turboprop engine assembly as defined in claim 10 , wherein the internal combustion engine is a Wankel rotary engine including a rotor having three apex portions mounted for eccentric revolutions within an internal cavity defined in a housing, the internal cavity having an epitrochoid shape with two lobes. 17. The turboprop engine assembly as defined in claim 10 , wherein a ratio of a diameter of the outlet of the exhaust duct on a diameter of the air duct in a plane transverse to the outlet of the exhaust duct is from 0.2 to 0.4. 18. A turboprop engine assembly for an aircraft, the turboprop engine assembly comprising: an internal combustion engine having a liquid coolant system, the internal combustion engine drivingly engaged to a propeller; an air duct in fluid communication with an environment of the aircraft; a heat exchanger received within the air duct, the heat exchanger having coolant passages in fluid communication with the liquid coolant system and air passages in heat exchange relationship with the coolant passages, the air passages in fluid communication with the air duct; and an exhaust duct in fluid communication with an exhaust of the internal combustion engine, the exhaust duct having an outlet positioned within the air duct downstream of the heat exchanger and upstream of an outlet of the air duct, the outlet of the exhaust duct spaced inwar