IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0381847
(2001-09-17)
|
우선권정보 |
EP-0121502 (2000-09-29) |
국제출원번호 |
PCT/EP01/10749
(2003-03-28)
|
§371/§102 date |
20030328
(20030328)
|
국제공개번호 |
WO02/27154
(2002-04-04)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Siemens Aktiengesellschaft
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
7 |
초록
▼
In a method of operating a gas turbine and steam turbine installation with a gas turbine which can be operated with both gas and oil, a partial flow of heated feed water is injected into the cold condensate when a change is made from gas operation to oil operation. For this purpose, the installation
In a method of operating a gas turbine and steam turbine installation with a gas turbine which can be operated with both gas and oil, a partial flow of heated feed water is injected into the cold condensate when a change is made from gas operation to oil operation. For this purpose, the installation comprises a mixing device, in which at least one spray head connected to a hot-water main, is arranged for the supply of the partial flow.
대표청구항
▼
1. A method of operating a gas turbine and steam turbine installation, comprising:routing exhaust gas emerging from a gas turbine, operable with both gas and oil, via a waste-heat steam generator whose heating surfaces are connected into the water/steam cycle of a steam turbine having a plurality of
1. A method of operating a gas turbine and steam turbine installation, comprising:routing exhaust gas emerging from a gas turbine, operable with both gas and oil, via a waste-heat steam generator whose heating surfaces are connected into the water/steam cycle of a steam turbine having a plurality of pressure stages; and preheating condensate in the waste-heat steam generator by feed water, which is at a pressure that is high relative to the condensate and which is supplied as steam to the steam turbine, wherein, in the case of a change from gas operation to oil operation, a partial flow of heated feed water is injected through at least one spray head into the cold condensate. 2. The method as claimed in claim 1, wherein the partial flow is extracted from at least one of a relatively high-pressure stage and a relatively low-pressure stage of the water/steam cycle.3. The method as claimed in claim 1, wherein the partial flow is extracted from the outlet end of at least one of a relatively high-pressure economizer and a relatively low-pressure economizer provided as a heating surface in the waste-heat steam generator.4. The method as claimed in claim 1, wherein the partial flow is extracted from at least one of a relatively high-pressure drum and a relatively low-pressure drum connected into the water/steam cycle.5. A gas turbine and steam turbine installation, comprising:a gas turbine, adapted to operate with both gas and oil; a waste-heat steam generator connected downstream of the exhaust-gas end of the gas turbine, wherein heating surfaces of the waste-heat steam generator are connected into a water/steam cycle of a steam turbine, the steam turbine including, at least one low-pressure stage, one high-pressure stage, a mixing device having an internal space, an inlet opening connected to a condensate main for supplying cold condensate, an outlet opening connected at the inlet end to a condensate preheater arranged as a heating surface in the waste-heat steam generator and at least one spray head arranged within the internal space, wherein the spray head is adapted to be supplied with an adjustable partial flow of heated feed water, extracted from at least one of a pressure drum and an economizer, by a hot water main connected at the outlet end to the spray head and routed at the supply end to a pressure drum connected at least one of'at the water end into the water/steam cycle, and at the outlet end to an economizer, arranged as a heating surface in the waste-heat steam generator. 6. The gas turbine and steam turbine installation as claimed in claim 5, wherein a valve for adjusting the partial flow is connected into the hot water main upstream of the mixing device, in the flow direction of the partial flow.7. The gas turbine and steam turbine installation as claimed in claim 5, wherein a plurality of spray heads are connected by an intermediate main to the hot water main.8. The gas turbine and steam turbine installation as claimed in claim 7, wherein a shut-off valve is connected into the hot water main upstream of at least one of the intermediate main, and each intermediate main, in the flow direction of the partial flow.9. The gas turbine and steam turbine installation as claimed in claim 5, wherein each spray head includes a valve which is self-opening as a function of the pressure difference between the partial flow and the cold condensate.10. The gas turbine and steam turbine installation as claimed in claim 7, wherein the valve is connected to at least one spray nozzle of the spray head via at least one valve duct.11. The method as claimed in claim 2, wherein the partial flow is extracted from the outlet end of at least one of a relatively high-pressure economizer and a relatively low-pressure economizer provided as a heating surface in the waste-heat steam generator.12. The gas turbine and steam turbine installation as claimed in claim 5, wherein a plurality of spray heads are connected by an intermediate main to the hot water main.13. The gas turbine and steam turbine installation as claimed in claim 6, wherein each spray head includes a valve which is self-opening as a function of the pressure difference between the partial flow and the cold condensate.14. The gas turbine and steam turbine installation as claimed in claim 7, wherein each spray head includes a valve which is self-opening as a function of the pressure difference between the partial flow and the cold condensate.15. The gas turbine and steam turbine installation as claimed in claim 8, wherein each spray head includes a valve which is self-opening as a function of the pressure difference between the partial flow and the cold condensate.16. A steam turbine for a gas turbine and steam turbine installation, wherein the gas turbine is adapted to operate with both gas and oil, comprising:at least one relatively low-pressure stage, at least one relatively high-pressure stage, and a mixing device, the mixing device including, an internal space, an inlet opening connected to a condensate main for supplying cold condensate, an outlet opening connected at the inlet end to a condensate preheater arranged as a heating surface in a waste-heat steam generator connected downstream of the exhaust-gas end of the gas turbine, and at least one spray head arranged within the internal space, wherein the spray head is adapted to be supplied with an adjustable partial flow of heated feed water, for injection into a cold condensate. 17. The steam turbine of claim 16, wherein the partial flow is extracted from at least one of the pressure drum and the economizer.18. The steam turbine of claim 16, wherein the partial flow is extracted by a hot water main connected at the outlet end to the spray head and routed at the supply end to a pressure drum connected at least one of at the water end into a water/steam cycle, and at the outlet end to an economizer, arranged as a heating surface in the waste-heat steam generator.19. A method of operating a gas turbine and steam turbine installation, comprising:routing exhaust gas emerging from a gas turbine, operable with both gas and oil, via a waste-heat steam generator having heating surfaces that are connected into the water/steam cycle of a steam turbine; and preheating condensate in the waste-heat steam generator by feed water, which is at a pressure which that is high relative to the condensate, wherein, in the case of a change from gas operation to oil operation, a partial flow of heated feed water is injected through at least one spray head into the cold condensate. 20. The method as claimed in claim 19, wherein the partial flow is extracted from at least one of a relatively high-pressure stage and a relatively low-pressure stage of the water/steam cycle.21. The method as claimed in claim 19, wherein the partial flow is extracted from the outlet end of at least one of a relatively high-pressure economizer and a relatively low-pressure economizer provided as a heating surface in the waste-heat steam generator.22. The method as claimed in claim 19, wherein the partial flow is extracted from at least one of a relatively high-pressure drum and a relatively low-pressure drum connected into the water/steam cycle.23. A method of operating a gas turbine and steam turbine installation, comprising;routing exhaust gas from a first turbine via a waste-heat steam generator; heating condensate in the waste-heat steam generator to produce a feed water that is supplied to a second turbine; and spraying a portion of the feed water into the condensate.
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