Heat-exchange architecture built into the exhaust of a turbine engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/08
F02C-007/00
F01D-025/30
출원번호
US-0704261
(2011-07-05)
등록번호
US-9500128
(2016-11-22)
우선권정보
FR-10 55452 (2010-07-06)
국제출원번호
PCT/FR2011/051584
(2011-07-05)
§371/§102 date
20121214
(20121214)
국제공개번호
WO2012/004515
(2012-01-12)
발명자
/ 주소
Thomas, Rainer
출원인 / 주소
TURBOMECA
대리인 / 주소
Oblon, McClelland, Maier & Neustadt, L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A heat-exchange architecture for exhaust of a turbine engine, including heat-exchange elements partially obstructing a hot exhaust gases stream. In an architecture built into an exhaust line for gas streams of a turbine engine, the turbine engine is a turboshaft engine including a gas generator and
A heat-exchange architecture for exhaust of a turbine engine, including heat-exchange elements partially obstructing a hot exhaust gases stream. In an architecture built into an exhaust line for gas streams of a turbine engine, the turbine engine is a turboshaft engine including a gas generator and a free turbine supplying power to a shaft via a through-shaft and an upstream reduction gear. An annular plate-shaped exchanger is installed in the axisymmetric portion of the ejector. The exchanger includes inlet and outlet channels, connected to the inlet and outlet of a central channel wound into a helix shape or sine curve in the annular plate. The channels are connected at the other ends to mechanical or electromechanical mechanisms for recovering and recycling energy. The energy is recovered via a cold fluid heated in the central channel by transfer of heat from residual gases.
대표청구항▼
1. An architecture of a turbine engine including an exhaust line for a stream of hot gases of the turbine engine, wherein the exhaust line is divided into a first segment including a heat exchanger built into the exhaust line and a second segment including a flow channel, the architecture with the b
1. An architecture of a turbine engine including an exhaust line for a stream of hot gases of the turbine engine, wherein the exhaust line is divided into a first segment including a heat exchanger built into the exhaust line and a second segment including a flow channel, the architecture with the built-in heat exchanger comprising: the heat exchanger that includes heat-exchange elements installed in one of units constituting the exhaust line configured to channel the stream of the hot gases and achieve a partial obstruction of the stream of the hot gases, in an environment that globally diffuses the hot gases, while a part of the stream of the hot gases flows across the heat-exchange elements, and the heat-exchange elements are positioned downstream in a flow direction of the hot gases from a downstream end of a central cone of a diffuser, and the central cone of the diffuser is disposed inside the exhaust line; anda mechanical or electromechanical mechanism connected to the heat-exchange elements to recover and recycle residual thermal energy of the hot gases to increase power available at a shaft of the turbine engine without substantially disturbing the stream of the hot gases, whereina majority part of a totality of the stream of the hot gases passes the heat exchange elements in the flow channel as a non-obstructed gas stream that is not obstructed by the heat exchange elements. 2. The architecture with the built-in heat exchanger according to claim 1, in which the heat-exchange elements include a structure with a section that evolves in a continuous way. 3. The architecture with the built-in heat exchanger according to claim 1, in which the heat-exchange elements include, in cross-section, a localized structure, which is limited with regard to the exhaust line in which they are installed, and the part of the stream of the hot gases flowing across the heat-exchange elements is a minority of the totality of the stream of the hot gases, so that the heat-exchange elements produce a minority obstruction of the stream of the hot gases. 4. The architecture with the built-in heat exchanger according to claim 1, in which the heat-exchange element includes, in cross-section, a substantially complete structure, with regard to the exhaust line, with a sufficiently high porosity or permeability so that obstruction of the stream of the hot gases remains partial. 5. The architecture with the built-in heat exchanger according to claim 1, in which the units constituting the exhaust line, in which the heat-exchange elements are installed, are chosen, in upstream-to-downstream order, among the diffuser with the central cone supported by structural arms, an exhaust nozzle, an extension piece/deflector, and an end ejector. 6. The architecture with the built-in heat exchanger according to claim 1, in which a structure of the heat-exchange elements is chosen among an annular intermediate structure, a structure of a vane assembly/deflector to channel the stream of the hot gases with radial plates, a structure of a stream splitter, with a variable porosity at an inlet of the stream of the hot gases. 7. The architecture with the built-in heat exchanger according to claim 6, in which the stream splitter is a radial stream splitter. 8. The architecture with the built-in heat exchanger according to claim 6, in which an intermediate or splitting shape makes it possible either to increase diffusion of the stream of the hot gases while keeping exhaust isostability and isolength or to shorten the exhaust line while keeping isodiffusion. 9. The architecture with the built-in heat exchanger according to claim 1, in which each of the heat-exchange elements includes one or plural independent channels for cold fluid. 10. The architecture with the built-in heat exchanger according to claim 1, in which either the heat-exchange elements are positioned into the exhaust line and mold to a shape of a unit in which they are installed, or the heat-exchange elements stand off. 11. The architecture with the built-in heat exchanger according to claim 1, in which at least a portion of the heat-exchange elements is disposed radially outward of the central cone of the diffuser. 12. The architecture with the built-in heat exchanger according to claim 1, in which the heat exchange elements include an inlet channel for a cold fluid and an outlet channel for the cold fluid, and the outlet channel is positioned downstream from the inlet channel in the flow direction of the hot gases. 13. The architecture with the built-in heat exchanger according to claim 12, in which the heat exchange elements include a central channel for the cold fluid, the central channel is wound into a shape of a helix or sine curve, and the central channel connects the inlet channel and the outlet channel.
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이 특허에 인용된 특허 (6)
Moellmann Heinz F. (New Haven CT), Dual cycle gas turbine engine system.
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