Engine assembly with combined engine and cooling exhaust
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02K-001/38
F01P-005/02
F02B-053/02
F01C-021/18
F02C-007/14
B64D-041/00
F01C-001/22
F02K-005/00
F02C-005/00
F02C-007/18
F02B-063/04
F02B-063/06
F02B-067/04
F01N-003/05
F01P-011/10
F02K-001/82
F02B-053/00
출원번호
US-0227519
(2016-08-03)
등록번호
US-10253726
(2019-04-09)
발명자
/ 주소
Julien, Andre
Thomassin, Jean
Courtois, Maxime
Villeneuve, Bruno
Dussault, Serge
Ullyott, Richard
LaFortune, Serge
Dionne, Luc
Jones, Anthony
Hagshenas, Behzad
Menheere, David
출원인 / 주소
PRATT & WHITNEY CANADA CORP.
대리인 / 주소
Norton Rose Fulbright Canada LLP
인용정보
피인용 횟수 :
0인용 특허 :
26
초록▼
An engine assembly for an aircraft, including an internal combustion engine having a liquid coolant system in fluid communication with a heat exchanger, an exhaust duct in fluid communication with air passages of the heat exchanger, a fan in fluid communication with the exhaust duct for driving a co
An engine assembly for an aircraft, including an internal combustion engine having a liquid coolant system in fluid communication with a heat exchanger, an exhaust duct in fluid communication with air passages of the heat exchanger, a fan in fluid communication with the exhaust duct for driving a cooling air flow through the air passages of the heat exchanger and into the exhaust duct, and an intermediate duct in fluid communication with an exhaust of the engine and having an outlet positioned within the exhaust duct downstream of the fan and upstream of the outlet of the exhaust duct. The outlet of the intermediate duct is spaced inwardly from a peripheral wall of the exhaust duct. The engine assembly may be configured as an auxiliary power unit. A method of discharging air and exhaust gases in an auxiliary power unit having an internal combustion engine is also discussed.
대표청구항▼
1. An engine assembly for an aircraft, the engine assembly comprising: a liquid-cooled internal combustion engine having a liquid coolant system;a heat exchanger having coolant passages in fluid communication with the liquid coolant system and air passages in heat exchange relationship with the cool
1. An engine assembly for an aircraft, the engine assembly comprising: a liquid-cooled internal combustion engine having a liquid coolant system;a heat exchanger having coolant passages in fluid communication with the liquid coolant system and air passages in heat exchange relationship with the coolant passages;an exhaust duct in fluid communication with the air passages of the heat exchanger, the exhaust duct having an outlet in fluid communication with an environment of the aircraft;an intermediate duct in fluid communication with an exhaust of the liquid-cooled internal combustion engine, the outlet of the intermediate duct spaced inwardly from a peripheral wall of the exhaust duct; anda fan in fluid communication with the exhaust duct configured in use for driving a cooling air flow through the air passages of the heat exchanger and into the exhaust duct at a higher mass flow than a higher mass flow of the exhaust gases, and wherein the intermediate duct has an outlet positioned within the exhaust duct downstream of the fan and upstream of the outlet of the exhaust duct. 2. The engine assembly as defined in claim 1, wherein the intermediate duct is in fluid communication with an exhaust of the liquid-cooled internal combustion engine through a turbine section including at least one turbine compounded with the liquid-cooled internal combustion engine. 3. The engine assembly as defined in claim 1, wherein the intermediate duct is concentric with the peripheral wall of the exhaust duct. 4. The engine assembly as defined in claim 1, wherein the exhaust duct is located in a tail cone of the aircraft. 5. The engine assembly as defined in claim 1, wherein the peripheral wall of the exhaust duct is made of a material selected from the group consisting of: an aluminum alloy, a composite material, and a polymer. 6. The engine assembly as defined in claim 1, wherein the air passages of the heat exchanger extend along a radial direction of the engine assembly. 7. The engine assembly as defined in claim 1, further comprising an additional heat exchanger having additional air passages in fluid communication with the exhaust duct, the additional heat exchanger having additional coolant passages in heat exchange relationship with the additional air passages and in fluid communication with a lubricating system of the liquid-cooled internal combustion engine. 8. The engine assembly as defined in claim 1, wherein a ratio of a diameter of the intermediate duct to a diameter of the exhaust duct is from 0.2 to 0.4. 9. The engine assembly as defined in claim 1, wherein the liquid-cooled 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. 10. The engine assembly as defined in claim 1, wherein the engine assembly is configured as an auxiliary power unit. 11. An engine assembly configured as an auxiliary power unit and received in a compartment of an aircraft, the engine assembly comprising: an internal combustion engine having a liquid coolant system;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;a heat exchanger in fluid communication with the liquid coolant system;an exhaust duct in fluid communication with the compartment through the heat exchanger, the exhaust duct having an outlet in fluid communication with an environment of the aircraft;a fan in fluid communication with the exhaust duct, the fan drivable by the internal combustion engine for driving a cooling air flow from the compartment, through the heat exchanger and into the exhaust duct; andan intermediate duct in fluid communication with an exhaust of the turbine section, the intermediate duct having an outlet positioned within the cooling air exhaust duct downstream of the fan and upstream of the outlet of the exhaust duct, the outlet of the intermediate duct spaced inwardly from a peripheral wall of the exhaust duct so that, in use, a flow of cooling air through the exhaust duct surrounds a flow of exhaust gases out of the intermediate duct, an open cross-sectional area of the outlet of the intermediate duct being smaller than an open cross-sectional area of the exhaust duct around the outlet of the intermediate duct, wherein the fan is drivable for driving the cooling air flow into the exhaust duct at a higher mass flow than a higher mass flow of the exhaust gases. 12. The engine assembly as defined in claim 11, wherein the intermediate duct is concentric with the peripheral wall of the exhaust duct. 13. The engine assembly as defined in claim 11, wherein the exhaust duct is located in a tail cone of the aircraft. 14. The engine assembly as defined in claim 11, wherein the peripheral wall of the exhaust duct is made of a material selected from the group consisting of: an aluminum alloy, a composite material, and a polymer. 15. The engine assembly as defined in claim 11, wherein the cooling air flows through the heat exchanger along a radial direction of the auxiliary power unit. 16. The engine assembly as defined in claim 11, further comprising an additional heat exchanger in fluid communication with a lubricating system of the internal combustion engine, the exhaust duct being in fluid communication with the compartment through the heat exchanger and the additional heat exchanger. 17. The engine assembly as defined in claim 11, 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. 18. The engine assembly as defined in claim 11, wherein a ratio of a diameter of the intermediate duct to a diameter of the exhaust duct is from 0.2 to 0.4. 19. A method of discharging air and exhaust gases in an auxiliary power unit having an internal combustion engine, the method comprising: circulating a flow of cooling air used to cool a liquid coolant of the internal combustion engine to an exhaust duct of the auxiliary power unit and out of the auxiliary power unit; andcirculating a flow of exhaust gases produced by the internal combustion engine to the exhaust duct so that the flow of cooling air surrounds the flow of exhaust gases, a mass flow the exhaust gases being smaller than a mass flow of the cooling air. 20. The method as defined in claim 19, wherein the flow of exhaust gases is circulated from the internal combustion engine through a turbine section compounded with the internal combustion engine before being circulated to the exhaust duct. 21. The method as defined in claim 19, wherein the flow of exhaust gases is discharged along a central axis of the exhaust duct. 22. The method as defined in claim 19, wherein the mass flow of the exhaust gases is 20% or less of the mass flow of the cooling air. 23. The method as defined in claim 19, wherein the flow of exhaust gases has a greater velocity than the flow of cooling air.
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