Heat exchanger arrangement for turbine engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/18
F01D-025/12
F01D-025/14
F02K-001/46
F02K-001/82
F04D-029/58
출원번호
US-0918808
(2015-10-21)
등록번호
US-10082081
(2018-09-25)
발명자
/ 주소
Murphy, Michael Joseph
Zamora, Sean P.
출원인 / 주소
UNITED TECHNOLOGIES CORPORATION
대리인 / 주소
Carlson, Gaskey & Olds, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
A turbine engine cooling arrangement according to an example of the present disclosure includes, among other things, a core passage for receiving a core flow for combustion, a first airflow source including a first passage adjacent the core passage for conveying a first airflow, a second airflow sou
A turbine engine cooling arrangement according to an example of the present disclosure includes, among other things, a core passage for receiving a core flow for combustion, a first airflow source including a first passage adjacent the core passage for conveying a first airflow, a second airflow source including a second passage adjacent the first passage for conveying a second airflow, and a heat exchanger that is thermally connected with the first passage and the second passage for transferring heat between the first airflow and the second airflow. The first airflow and the second airflow stream over the heat exchanger in a parallel radial direction and a parallel axial direction. An engine inlet divides inlet air into the core flow, the first airflow, and the second airflow. A method of providing cooling air is also disclosed.
대표청구항▼
1. A turbine engine cooling arrangement, comprising: a core passage for receiving a core flow for combustion;a first airflow source including a first passage adjacent the core passage for conveying a first airflow;a second airflow source including a second passage adjacent the first passage for conv
1. A turbine engine cooling arrangement, comprising: a core passage for receiving a core flow for combustion;a first airflow source including a first passage adjacent the core passage for conveying a first airflow;a second airflow source including a second passage adjacent the first passage for conveying a second airflow;a heat exchanger that is thermally connected with the first passage and the second passage for transferring heat between the first airflow and the second airflow, wherein the first airflow and the second airflow stream over the heat exchanger in a parallel radial direction and a parallel axial direction; andan engine inlet dividing inlet air into the core flow, the first airflow, and the second airflow. 2. The turbine engine cooling arrangement as recited in claim 1, wherein the first airflow comprises a first temperature and a first pressure, and the second airflow comprises a second temperature that is less than the first temperature and a second pressure that is less than the first pressure. 3. The turbine engine cooling arrangement as recited in claim 1, wherein the heat exchanger comprises a plurality of heat pipes each having a closed, sealed tube containing a coolant and a cooling circuit for transporting the coolant between ends of the tube. 4. The turbine engine cooling arrangement as recited in claim 3, wherein each of the plurality of heat pipes includes a first end located at least partially within the first passage and a second end located at least partially within the second passage. 5. The turbine engine cooling arrangement of claim 3, wherein each of the plurality of heat pipes is aft of an inlet of the first passage and the second passage. 6. The turbine engine cooling arrangement as recited in claim 1, wherein the first airflow source comprises a first bypass passage, and the second airflow source comprises a second bypass passage located radially outwards of the first bypass passage. 7. The turbine engine cooling arrangement as recited in claim 6, wherein the engine inlet includes at least one fan. 8. The turbine engine cooling arrangement as recited in claim 7, wherein the first airflow comprises a first temperature and a first pressure, and the second airflow comprises a second temperature that is less than the first temperature and a second pressure that is less than the first pressure. 9. The turbine engine cooling arrangement as recited in claim 8, comprising an exhaust section configured to receive at least a portion of the core flow. 10. The turbine engine cooling arrangement as recited in claim 9, wherein the exhaust section includes a convergent section and a divergent section located aft of the convergent section. 11. The turbine engine cooling arrangement as recited in claim 10, wherein the at least one fan includes a first fan and a second fan. 12. A turbine engine, comprising: a core passage for receiving a core flow for combustion, the core passage including a combustion section and a turbine section;an engine inlet section for dividing inlet air into the core flow, a first bypass flow, and a second bypass flow;a first bypass passage radially outwards of the core passage for receiving the first bypass flow;a second bypass passage radially outwards of the first bypass passage for receiving the second bypass flow; anda heat exchanger that is thermally connected with the first bypass passage and the second bypass passage for transferring heat between the first bypass flow and the second bypass flow, wherein the first bypass flow and the second bypass flow stream over the heat exchanger in a parallel radial direction and a parallel axial direction. 13. The turbine engine as recited in claim 12, wherein the engine inlet section includes at least one fan. 14. The turbine engine as recited in claim 12, wherein the first bypass flow comprises a first temperature and a first pressure, and the second bypass flow comprises a second temperature that is less than the first temperature and a second pressure that is less than the first pressure. 15. The turbine engine as recited in claim 12, further comprising an exhaust section for receiving the core flow, the exhaust section having a convergent section and a divergent section located aft of the convergent section. 16. The turbine engine as recited in claim 12, wherein the engine inlet section includes a first fan and a second fan. 17. A method of providing cooling air for use in a turbine engine, comprising: establishing a core flow for combustion, a first airflow and a second airflow, the first airflow having a first temperature and a first pressure, and the second airflow having a second temperature that is lower than the first temperature and a second pressure that is lower than the first pressure;transferring heat from the first airflow to the second airflow to cool the first airflow;discharging the first airflow from a first outlet that is located at a first exhaust section position and discharging the second airflow from a second outlet that is located at a second exhaust section position that is axially aft of the first exhaust section position relative to the core flow; andcooling an engine component using the first airflow. 18. The method as recited in claim 17, wherein the step of transferring heat from the first airflow to the second airflow to cool the first airflow occurs aft of an inlet of any of the core flow, the first airflow, and the second airflow. 19. The method as recited in claim 17, wherein the engine component is an engine exhaust section having a convergent section and a divergent section located aft of the convergent section, the convergent section defining one of the first exhaust section position and the second exhaust section position, and the divergent section defining another one of the first exhaust section position and the second exhaust section position. 20. The method as recited in claim 17, wherein the step of establishing includes dividing inlet air into the core flow, the first airflow, and the second airflow.
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이 특허에 인용된 특허 (16)
Elovic Ernest (Cincinnati OH), Cooling air cooler for a gas turbofan engine.
Vermejan Alexander E. (Mason OH) Daiber Paul C. (Cincinnati OH) Morton Scott C. (Cincinnati OH) Taylor Michelle L. (Cincinnati OH), Gas turbine engine fan cooled heat exchanger.
Kraft, Robert Eugene; Gibbens, Nelson Dirk; Hetico, Rolf Robert; Groll, William Charles; Bailey, William Andrew; Stoker, James Edward, Shrouded turbofan bleed duct.
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