IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0057582
(2005-02-14)
|
등록번호 |
US-7683497
(2010-04-21)
|
우선권정보 |
GB-0403302.3(2004-02-14) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
3 |
초록
▼
A turbomachinery electric generator arrangement includes a rotary compressor, a generator having a rotary armature and a stator, a combustion chamber to which compressed gas is directed from the compressor, a rotary turbine to which combustion product is directed from the combustion chamber and a be
A turbomachinery electric generator arrangement includes a rotary compressor, a generator having a rotary armature and a stator, a combustion chamber to which compressed gas is directed from the compressor, a rotary turbine to which combustion product is directed from the combustion chamber and a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine. Compressed gas for cooling components of the arrangement is directed from the rotary compressor, typically being tapped off from a subsidiary gas output upstream of a primary gas outlet. Bearing thermal shielding and modular construction of components are also features of the arrangement.
대표청구항
▼
The invention claimed is: 1. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is
The invention claimed is: 1. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is directed from the combustion chamber; and a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine; wherein compressed gas for cooling components of the arrangement is directed from the rotary compressor; and wherein the compressor has a primary compressed gas output for directing air to the combustion chamber and a subsidiary gas output for tapping off cooling gas, the primary compressed gas output disposed on a downstream side of the compressor, and the subsidiary gas output disposed on an upstream side of the compressor. 2. A turbomachinery electric generator arrangement according to claim 1, wherein the subsidiary gas output is upstream of the primary compressed gas outlet. 3. A turbomachinery electric generator arrangement according to claim 1, wherein the cooling gas provided by the subsidiary gas output is at a tap off pressure lower than the air provided by the primary compressed gas output to the combustion chamber. 4. A turbomachinery electric generator arrangement according to claim 1, wherein the compressor has a radial flow impeller. 5. A turbomachinery electric generator arrangement according to claim 1, wherein the compressor and the turbine are provided at spaced portions of the arrangement. 6. A turbomachinery electric generator arrangement according to claim 1, wherein the generator arrangement is provided intermediate the compressor and the turbine. 7. A turbomachinery electric generator arrangement according to claim 1, wherein the compressor and the turbine are overhung at opposed ends of the rotor of the arrangement. 8. A turbomachinery electric generator arrangement according to claim 1, wherein the compressed cooling gas tapped off from the compressor is directed to the cool the bearing arrangement. 9. A turbomachinery electric generator arrangement according to claim 1, wherein the bearing arrangement comprises a compressor proximal bearing and a turbine proximal bearing, the cooling gas tapped off from the compressor being directed to cool both the compressor proximal and turbine proximal bearings. 10. A turbomachinery electric generator arrangement according to claim 9, wherein at least one of: i) the cooling gas tapped off from the compressor is directed along a manifold network including a first branch directing cooling gas to the region of the turbine proximal bearing and a second branch directing cooling gas to the region of the compressor proximal bearing; and ii) the cooling gas tapped off from the compressor passes to the turbine proximal bearing prior to passing to the compressor proximal bearing. 11. A turbomachinery electric generator arrangement according to claim 1, wherein the cooling gas tapped off from the compressor is directed along a cooling path, the cooling path including at least one of: i) a space between the generator arrangement armature and stator; and ii) a portion internally of the rotor. 12. A turbomachinery electric generator arrangement according to claim 11, wherein the armature comprises a tube having a bore in the interior, and cooling gas is directed into and out of the bore. 13. A turbomachinery electric generator arrangement according to claim 12, wherein the bore includes an insert to guide the cooling gas to wash the internal bore of the armature. 14. A turbomachinery electric generator arrangement according to claim 13, wherein the insert is characterized by at least one of: i) being realized of high resistivity material; ii) being located in position in the bore of the armature by a plurality of upstands projecting from the main body of the insert; and iii) having a hollow interior. 15. A turbomachinery electric generator arrangement according to claim 11, wherein the cooling gas is beforehand directed via the bearing arrangement. 16. A turbomachinery electric generator arrangement according to claim 1, wherein the generator arrangement includes a plurality of generators, each generator having a respective rotary armature and a stator, the bearing arrangement including a bearing intermediate the generators. 17. A turbomachinery electric generator arrangement according to claim 1, wherein the bearing arrangement includes at least one of: i) a bearing taking up axial thrust; ii) one or more tilting pad bearings; and iii) one or more rolling element bearings. 18. A turbomachinery electric generator arrangement according to claim 1, further comprising a shield device for thermally shielding a bearing proximate the turbine from the heat of the turbine. 19. A turbomachinery electric generator arrangement according to claim 18, wherein the shield device comprises a liquid cooled element. 20. A turbomachinery electric generator arrangement according to claim 19, wherein the liquid cooled element includes an internal liquid coolant flowpath. 21. A turbomachinery electric generator arrangement according to claim 20, wherein the coolant flowpath extends inwardly towards the rotational axis of the rotor and subsequently outwardly away from the rotational axis of the rotor. 22. A turbomachinery electric generator arrangement according to claim 21, wherein the flowpath follows a spiral or helical path. 23. A turbomachinery electric generator arrangement according to claim 18, wherein the shield device comprises an annular element and/or is mounted between the turbine and the turbine proximate bearing. 24. A turbomachinery electric generator arrangement according to claim 23, wherein the shield device is mounted against the backing plate of the turbine. 25. A turbomachinery electric generator arrangement according to claim 1, wherein the bearing arrangement includes one or more bearing modules including a flanged carrier supporting a bearing element, the flanged carrier facilitating mounting of the bearing. 26. A turbomachinery electric generator arrangement according to claim 25, wherein the flange of the carrier of the bearing module is sandwiched between respective flanged terminal portions of other modules of the arrangement. 27. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is directed from the combustion chamber; and a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine; wherein compressed gas for cooling components of the arrangement is directed from the rotary compressor; and wherein the compressed gas for cooling tapped off from the compressor is at a tap off pressure lower than primary gas output from the compressor directed to the combustion chamber. 28. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is directed from the combustion chamber; and a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine; wherein compressed gas for cooling components of the arrangement is directed from the rotary compressor; and wherein compressed cooling gas tapped off from the compressor is directed to the cool the bearing arrangement. 29. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is directed from the combustion chamber; and a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine; wherein compressed gas for cooling components of the arrangement is directed from the rotary compressor; and wherein at least one of i) the cooling gas tapped off from the compressor is directed along a manifold network including a first branch directing cooling gas to the region of the turbine proximal bearing and a second branch directing cooling gas to the region of the compressor proximal bearing, and ii) the cooling gas tapped off from the compressor passes to the turbine proximal bearing prior to passing to the compressor proximal bearing. 30. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is directed from the combustion chamber; and a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine; wherein compressed gas for cooling components of the arrangement is directed from the rotary compressor; and wherein the cooling gas tapped off from the compressor is directed along a cooling path, the cooling path including at least one of i) a space between the generator arrangement armature and stator. and ii) a portion internally of the rotor. 31. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is directed from the combustion chamber; a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine; and a shield device for thermally shielding a bearing proximate the turbine from the heat of the turbine; wherein compressed gas for cooling components of the arrangement is directed from the rotary compressor. 32. A turbomachinery electric generator arrangement comprising: a rotary compressor; a generator arrangement having a rotary armature and a stator; a combustion chamber to which compressed gas is directed from the compressor; a rotary turbine to which combustion product is directed from the combustion chamber; and a bearing arrangement supporting in rotation the rotary compressor, rotary armature and rotary turbine, wherein the bearing arrangement includes one or more bearing modules including a flanged carrier supporting a bearing element, the flanged carrier facilitating mounting of the bearing.
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