Aircraft capable of hovering having an exhaust duct with thermoelectric conversion circuit
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64B-001/24
B64D-027/00
B64D-029/00
B64D-031/00
B64D-033/00
B64D-035/00
B64D-033/04
F01D-025/30
F02K-001/82
H01L-035/30
출원번호
US-0422855
(2012-03-16)
등록번호
US-8939397
(2015-01-27)
우선권정보
EP-11425066 (2011-03-18)
발명자
/ 주소
Brunetti, Massimo
Cogliati, Andrea
Iannucci, Dario
Scandroglio, Alessandro
출원인 / 주소
Agustawestland S.p.A.
대리인 / 주소
Ohlandt Greeley Ruggiero & Perle L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
An aircraft, capable of hovering, having drive means; and at least one exhaust duct connected to an outlet of the drive means to expel the exhaust gas, produced by fuel combustion, from the aircraft. At least part of the exhaust duct has a thermoelectric conversion circuit for Seebeck-effect convert
An aircraft, capable of hovering, having drive means; and at least one exhaust duct connected to an outlet of the drive means to expel the exhaust gas, produced by fuel combustion, from the aircraft. At least part of the exhaust duct has a thermoelectric conversion circuit for Seebeck-effect converting to electric energy the thermal gradient produced between the inside and outside of the exhaust duct by flow of the exhaust gas.
대표청구항▼
1. An aircraft, capable of hovering, comprising: drive means; andat least one exhaust duct connected to an outlet of said drive means to expel exhaust gas, produced by fuel combustion, from the aircraft,wherein at least part of said exhaust duct comprises a thermoelectric conversion circuit for Seeb
1. An aircraft, capable of hovering, comprising: drive means; andat least one exhaust duct connected to an outlet of said drive means to expel exhaust gas, produced by fuel combustion, from the aircraft,wherein at least part of said exhaust duct comprises a thermoelectric conversion circuit for Seebeck-effect converting to electric energy a thermal gradient produced between an interior and an exterior of the exhaust duct by flow of said exhaust gas,wherein said exhaust duct comprises at least one air intake for conducting outside in-flight airflow into the exhaust duct,wherein said air intake is arranged upstream of said thermoelectric conversion circuit with reference to a flow direction in which the exhaust gas flows inside said exhaust duct, andwherein said air intake is inclined with respect to an axis of said exhaust duct and converges towards said axis along the flow direction of the exhaust gas so that the outside in-flight airflow mixes with the exhaust gas upstream of the thermoelectric conversion circuit to locally lower the temperature of the exhaust gas at said thermoelectric conversion circuit. 2. An aircraft as claimed in claim 1, wherein said thermoelectric conversion circuit comprises a plurality of thermoelectric modules connected in series and parallel to form a network, wherein the network is subjected to said thermal gradient. 3. An aircraft as claimed in claim 2, wherein each of said thermoelectric modules comprises a number of semiconductor junction cells fixed to a substrate. 4. An aircraft as claimed in claim 2, wherein said exhaust duct comprises a wall defining an interior passage for said exhaust gas, and said thermoelectric modules define at least a part of said wall. 5. An aircraft as claimed in claim 2, wherein said exhaust duct comprises a wall defining an interior passage for said exhaust gas, and said thermoelectric modules are fixed to an exterior face of said wall. 6. An aircraft as claimed in claim 5, further comprising a layer of heat-insulating material that is interposed between each of said thermoelectric modules and said wall to which each of said thermoelectric modules is fixed. 7. An aircraft as claimed in claim 2, wherein said exhaust duct comprises a heat-dissipating means affixed to the thermoelectric modules outside of the interior of the duct. 8. An aircraft as claimed in claim 2, wherein said thermoelectric modules are divided into groups, each comprising at least two of series-connected thermoelectric modules; said groups of thermoelectric modules being parallel-connected to one another. 9. An aircraft as claimed in claim 2, further comprising: at least one electric loan, anda DC/DC conversion unit connecting said thermoelectric modules to said at least one electric load, wherein the DC/DC conversion unit stabilizes a voltage applied to the electric loads. 10. An aircraft as claimed in claim 9, further comprising: a number of switches configured to selectively connect said at least one electric load to said DC/DC conversion unit, anda control unit configured to open and close said switches as a function of available electric power and an operating status of the aircraft. 11. An aircraft as claimed in claim 9, wherein said at least one electric load comprise a battery of said aircraft. 12. An aircraft as claimed in Claim 1, wherein the locally lowered temperature of the mixed exhaust gas is below a maximum operating temperature of the thermoelectric circuit.
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