A gas turbine engine including a compressor section and a turbine section, coupled by one or more shafts, is provided. The compressor section progressively compresses air and includes an aft-stage of rotor blades rotatable about an axial direction of the gas turbine engine. A cooling system is inclu
A gas turbine engine including a compressor section and a turbine section, coupled by one or more shafts, is provided. The compressor section progressively compresses air and includes an aft-stage of rotor blades rotatable about an axial direction of the gas turbine engine. A cooling system is included with the gas turbine engine for cooling compressed air in or from the compressor section. The cooling system includes a fluid tank for storing a volume of cooling fluid and one or more fluid lines in fluid communication with the fluid tank. The one or more fluid lines include an outlet positioned adjacent to the aft-stage of rotor blades for injecting cooling fluid into the compressed air proximate the aft-stage of rotor blades.
대표청구항▼
1. A gas turbine engine defining an axial direction, the gas turbine engine comprising: a compressor section for progressively compressing air, the compressor section including an aft-stage of rotor blades rotatable about the axial direction;a cooling system for cooling compressed air in or from the
1. A gas turbine engine defining an axial direction, the gas turbine engine comprising: a compressor section for progressively compressing air, the compressor section including an aft-stage of rotor blades rotatable about the axial direction;a cooling system for cooling compressed air in or from the compressor section, the cooling system comprising a fluid tank for storing a volume of cooling fluid; and one or more fluid lines in fluid communication with the fluid tank, the one or more fluid lines including an outlet positioned adjacent to the aft-stage of rotor blades of the compressor section for injecting cooling fluid in an upstream direction into the compressed air proximate the aft-stage of rotor blades; andwherein the gas turbine engine further defines a radial direction, wherein the compressor section further includes a diffuser positioned aft of the aft-stage of rotor blades, and wherein the one or more fluid lines include a fluid line attached to a stationary component inward of the diffuser along the radial direction. 2. The gas turbine engine of claim 1, wherein the compressor section includes a low pressure compressor and a high pressure compressor, and wherein the aft-stage of rotor blades are positioned at an aft end of the high pressure compressor. 3. The gas turbine engine of claim 1, further comprising a turbine section including a first stage of rotor blades, wherein the one or more fluid lines include a compressor fluid line and a turbine fluid line, wherein the compressor fluid line is configured for injecting cooling fluid into the compressed air proximate the aft-stage of rotor blades, and wherein the turbine fluid line is configured for providing cooling fluid to at least one of the first stage of rotor blades of the turbine section or to an airflow proximate the first stage of rotor blades of the turbine section. 4. The gas turbine engine of claim 3, wherein the one or more fluid lines further include a supply fluid line in fluid communication with the fluid tank, wherein the cooling system further includes a valve, and wherein the valve includes an inlet fluidly connected with the supply fluid line, a first outlet fluidly connected to the compressor fluid line, and a second outlet fluidly connected to the turbine fluid line. 5. The gas turbine engine of claim 1, wherein the cooling system further includes a fluid pump for generating a flow of cooling fluid from the fluid tank through the one or more fluid lines. 6. The gas turbine engine of claim 1, wherein the one or more fluid lines include a plurality of fluid lines, the plurality of fluid lines each including an outlet, the outlets of the plurality of fluid lines circumferentially spaced around the gas turbine engine, and each outlet positioned adjacent to the aft-stage of rotor blades of the compressor section for injecting cooling fluid into the compressed air proximate the aft-stage of rotor blades. 7. The gas turbine engine of claim 6, wherein the plurality of fluid lines includes from fifteen (15) to thirty (30) cooling lines. 8. The gas turbine engine of claim 1, wherein the cooling fluid is a cooling liquid, and wherein the cooling system is configured to inject up to two (2) pounds of cooling liquid per second into the compressed air proximate the aft-stage of rotor blades. 9. The gas turbine engine of claim 1, wherein the cooling fluid is a cooling liquid, and wherein the cooling system is configured to inject cooling fluid at a rate greater than about 0.05% of a mass flow rate of compressed air flowing through the compressor section and less than about ten percent the mass flow rate of compressed air flowing through the compressor section. 10. The gas turbine engine of claim 1, wherein the cooling fluid is at least one of water or a glycol-water mixture. 11. The gas turbine engine of claim 1, wherein the one or more fluid lines include a nozzle defining the outlet, wherein the nozzle is configured to spray the cooling fluid generally towards a forward end of the compressor section. 12. The gas turbine engine of claim 1, wherein gas turbine engine further defines a radial direction, wherein the compressor section at least partially defines a core air flowpath, and wherein the fluid tank is positioned outward of the core air flowpath along the radial direction. 13. The gas turbine engine of claim 12, wherein at least one of the one or more fluid lines extend through the core air flowpath to a location inward of the core air flowpath along the radial direction. 14. The gas turbine engine of claim 1, wherein the cooling system operates to cool the compressor section during periods of peak power of the gas turbine engine. 15. A cooling system for cooling compressed air in or from a compressor section of an aeronautical gas turbine engine, the cooling system comprising: a fluid tank for storing a volume of cooling liquid; and one or more fluid lines in fluid communication with the fluid tank, the one or more fluid lines including an outlet and configured to be mounted such that the outlet is positioned adjacent to an aft-stage of rotor blades of the compressor section for injecting cooling liquid in an upstream direction into compressed air proximate the aft-stage of rotor blades of the compressor section; and wherein the aeronautical gas turbine engine further defines a radial direction, wherein the compressor section further includes a diffuser positioned aft of the aft-stage of rotor blades, and wherein the one or more fluid lines include a fluid line attached to a stationary component inward of the diffuser along the radial direction. 16. The cooling system of claim 15, wherein the aeronautical gas turbine engine further includes a turbine section having a first stage of rotor blades, wherein the one or more fluid lines include a compressor fluid line and a turbine fluid line, wherein the compressor fluid line is configured for injecting cooling liquid into the compressed air proximate the aft-stage of rotor blades, and wherein the turbine fluid line is configured to provide cooling liquid to at least one of the first stage of rotor blades of the turbine section or to an airflow proximate the first stage of rotor blades of the turbine section. 17. The cooling system of claim 16, wherein the one or more fluid lines further include a supply fluid line in fluid communication with the fluid tank, wherein the cooling system further includes a valve, and wherein the valve includes an inlet fluidly connected with the supply fluid line, a first outlet fluidly connected to the compressor fluid line, and a second outlet fluidly connected to the turbine fluid line.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Alvanos, Ioannis; Suciu, Gabriel L., Bearing mounting system in a low pressure turbine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.