JP3165611B2 - Gas turbine cooling air introduction device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas turbine rotor or the like which may be eccentric due to high temperature. And a gas turbine cooling air introduction device.

[0002]

2. Description of the Related Art FIG. 3 is a partial sectional view showing the vicinity of a combustor of a conventional gas turbine. A fuel for generating a combustion gas serving as a driving source of the gas turbine is introduced into the nozzle 11 from the outside as shown by a white arrow in the figure, mixed with air in a combustor (inner cylinder) 12 and burned. Then, the gas becomes combustion gas, passes through the combustor transition piece 13, enters the moving blade 19 from the first stage stationary blade 14, and generates rotational power to the gas turbine rotor 20.

Air required for a gas turbine, such as air mixed with fuel in the combustor 12, is supplied to a compressor 1
5 and is heated to a high temperature of 400 to 450 ° C., passes through a stationary blade 15 ′ provided on the downstream side of the compressor 15, and is rectified by outer and inner diffusers 16 and 17 on the downstream side of the stationary blade. Then, as shown by the arrow of the thin line (dotted line), it is diffused into the combustor chamber 10 in the outer casing 18 and supplied to the combustor 12, and used for each purpose.

Further, in order to prevent a decrease in strength due to a high temperature, the cooling air for cooling a cooling portion, which needs to cool the gas turbine rotor 20 or the rotor blade 19, is:
The air compressed by the compressor 15 is once extracted to the outside of the compressor 15, cooled to about 200 ° C. by a cooler (not shown) provided outside, and then cooled through the outer casing 18. An intermediate shaft cover 22 surrounding the outer periphery of the intermediate shaft 23 by a flexible tube 21 returned to the inside of the casing 18 at the inlet tube 26 and connected to the cooling air inlet tube 26.
And flows out to a cooling air passage 25 formed between the outer periphery of the gas turbine rotor 20 and the intermediate shaft 23 to cool the gas turbine rotor 20 as shown by a thick arrow. , The rotor blades 19, etc., are supplied to cooling locations in the gas turbine that require cooling, and perform cooling.

In the above-described gas turbine, an introduction structure provided inside the outer casing 18 to supply cooling air from the external cooler to the inside of the gas turbine at a cooling point such as the gas turbine rotor 20 where cooling is required. Is a cooling air inlet pipe 26 provided through the outer casing 18 and the flexible pipe 2 connected thereto.
1 is a diffuser 1 provided on the outlet side of the compressor 15.
To cross just behind 6,17, diffuser 16,
There is a problem that the air flux discharged from the compressor 15 rectified at 17 is blocked, and the flow rectified at the diffusers 16 and 17 is disturbed, resulting in a decrease in turbine performance.

Further, the combustor 12 and the outer diffuser 16
The cooling air inlet pipe 26 is provided between them, so that the gap therebetween is small, and there is a problem that the piping work of the cooling air inlet pipe 26 becomes extremely difficult. Further, it is difficult to secure the space of the combustor chamber 10 on the inner diameter side of the combustor 12 and the transition piece 13 of the combustor. And the compressed air supplied to the outside of these combustors 12 and 13 has a drawback such as a pressure loss.

[0007]

SUMMARY OF THE INVENTION The present invention is intended to solve the above-mentioned problems of the conventional gas turbine cooling air introducing apparatus. (1) A cooling air inlet pipe including a flexible pipe, which is disposed on an outlet side of a diffuser. As described above , the cooling air introduced into the combustor chamber can be supplied to the air chamber through the cooling air inlet pipe without causing disturbance of the air flow rectified by the diffuser, and (2) between the combustor and the outer diffuser. The installation of a cooling air inlet pipe including a flexible pipe, which is difficult to perform piping work, is unnecessary,
Disassembly work becomes easy, the number of parts is reduced,
(3) The space inside the combustor chamber on the inner diameter side can be made larger than the combustor including the combustor transition piece, the space from the inner diameter side to the outer diameter side can be sufficiently secured, and the compressor passing through this space It is an object to provide a gas turbine cooling air introduction device that can reduce the pressure loss of compressed air discharged from a gas turbine.

[0008]

For this reason, the gas turbine cooling air introduction device of the present invention has the following means.

(1) A radial strut having a hollow structure having a large cross-sectional shape with a large slenderness ratio and having a passage through which cooling air passes inside the hollow structure is provided at an outlet side of a diffuser installed downstream of the compressor. Was.

(2) In order to introduce cooling air from the outside into the inside of the outer casing, one end is connected to a cooling air inlet pipe opened in the outer casing, and the other end is connected to one of the hollow portions of the radial strut. The cooling air introduction chamber was provided on the outer periphery of the diffuser.

(3) An air chamber having one end communicating with the other hollow portion of the radial strut and having the other end communicating with a cooling air passage provided on the outer peripheral surface of the gas turbine rotor or the like, which requires cooling of the gas turbine. Was defined inside an intermediate shaft cover provided around the outer peripheral surface of the gas turbine rotor.

Further, another gas turbine cooling air introducing structure according to the present invention includes the following means in addition to the above means (1) to (3).

(4) An insert for maintaining the strength of the radial strut is provided inside the radial strut.

[0014]

According to the gas turbine cooling air introducing apparatus of the present invention, there are provided (1) a cooling air introducing chamber communicating with an opening of the cooling air inlet pipe to the outer casing by means of the above (1) to (3); The air chamber defined inside the shaft cover is communicated with a hollow structure provided inside the radial strut, which has an external shape with a large slenderness ratio and does not disturb the air flow flowing around its outer periphery, from the outside. The cooling air is introduced into the air chamber that sends the cooling air to the gas turbine cooling point, which obstructs the flow of air discharged from the compressor at the diffuser outlet, eliminating the need for piping for sending cooling air. Become. As a result, the turbulence of the rectified air bundle on the diffuser outlet side, which has conventionally been blocked by the piping, can be reduced, and the performance of the gas turbine can be greatly improved.

(2) Since the cooling air introduction chamber is provided between the combustor and the outer diffuser, the piping work is difficult, and the gas turbine is disposed in this portion having a small gap. The installation and disassembly of the cooling air inlet pipe and the flexible pipe connected to it, which made assembly and disassembly of
The number of gas turbine parts can be greatly reduced.

(3) Further, by providing the cooling air introduction chamber and the radial strut, a sufficient space on the inner diameter side of the combustor can be secured, and the inner diameter side and the outer diameter side of the combustor including the combustor transition piece are provided. The space formed between them can be made large, the resistance of the air flow flowing from the inner diameter side to the outer diameter side can be reduced, the pressure loss of the compressed air supplied from the compressor can be reduced, and the flow rate can be sufficiently secured.

Further, another gas turbine cooling air system of the present invention employs the means of (4) in addition to the means of (1) to (3). (4) By the insert inserted into the radial strut, heat transfer in the radial strut having a hollow structure is improved, and the radial strut through which the cooling air of about 200 ° C. flows inside is compressed in the flow of the compressed air of 400 to 450 ° C. The temperature difference between the inner and outer surfaces is alleviated, and the thermal stress due to the temperature difference can be reduced. Thereby, even in a radial strut having a large slenderness and a hollow structure, the strength can be sufficiently maintained, and the occurrence of problems such as deformation due to thermal stress can be prevented.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a gas turbine cooling air introducing apparatus according to the present invention will be described below with reference to the drawings. FIG. 1 is a longitudinal sectional view showing a gas turbine cooling air introduction device according to an embodiment of the present invention, showing the vicinity of a combustor of a gas turbine. FIG. 2 is a sectional view of a radial strut taken along a line AA shown in FIG. FIG. In FIG. 1, the same reference numerals as those shown in FIG. 3 are the same as those described in FIG. 3, and the detailed description will be omitted.

In FIG. 1, a cooling air inlet pipe 5 for introducing cooling air from the outside is fixed to the outer casing 3 by connecting its outlet to an opening provided in an outer casing 3 defining a combustor chamber 10. Have been.

Further, the combustor chamber 10 is separated from the outer casing 3.
A cooling air introduction chamber 4 is provided above the protrusion 3 ′ of the outer casing 3, projecting inward and surrounding the outer periphery of the outer diffuser 16. This cooling air introduction chamber 4
Is a front end wall 4a formed by the outer casing 3 provided with the opening, an outer peripheral wall 4b formed by a partition wall 7 partitioning from the combustor chamber 10, and an inner peripheral wall formed by a projection 3 '. 4c and the tip of the projection 3 '
f is defined by the rear end wall 4d. Therefore, the cooling air introduction chamber 4 is provided with the opening provided in the outer casing 3 constituting the front end wall 4a as the inflow port 4e, and the cooling air inlet pipe 5
Cooling air supplied from the outside can be introduced into the inside.

A radial strut 2 is provided on an extension member 8 connected to the outlet end of the inner diffuser 1 provided on the downstream side of the compressor 15. As shown in FIG. 2, the radial strut 2 has an outer shape with a large slenderness ratio, and has a hollow 2a structure through which cooling air passes. Then, the outer diffuser 16 and the inner diffuser 1 are erected on the extension member 8 with the thinned cross sections facing in the streamline direction of the air flux from the compressor 15 rectified and flowing out. I have. Further, an inflow port 2b is provided in front of the upper part of the radial strut 2 so that cooling air from an outflow port 4f provided in a rear end wall 4d of the cooling air introduction chamber 4 flows into the inside. ing. further,
An outlet 2c is provided at a lower rear portion of the radial strut 2.

Further, as shown in FIG. 2A, the hollow 2a structure formed inside the radial strut 2 can smooth the inner surface and reduce the resistance of the passing cooling air. As shown in FIG. 2 (B), a dimple is formed on the inner surface of the hollow 2a structure, or an insert 2d made of a rib fixed to the inner surface is provided, and 400 to 450 ° C.
It is also possible to reduce the temperature difference generated between the outer peripheral surface exposed to the compressed air and the inner peripheral surface through which the cooling air of about 200 ° C. passes, thereby reducing the thermal stress generated in the radial strut 2. When the insert 2d is provided on the inner surface of the hollow 2a, the radial strut 2 is formed into a half-split shape in advance, and after the insert 2d is provided on the inner surface of the hollow 2a, it is joined by welding 2e and integrally formed. You can do it.

In addition, a gap is provided between the outer peripheral surface of the gas turbine rotor 20 and the inner peripheral surface thereof to cool the outer peripheral surface of the gas turbine rotor 20 and to be cooled by the gas turbine such as the rotor blade 19. An intermediate shaft cover 22 is provided on the outer periphery of the intermediate shaft 23 that forms the cooling air passage 25 that communicates with the cooling point. Inside the intermediate shaft cover 22 provided so as to surround the outer periphery of the intermediate shaft 23,
An air chamber 9 is provided. The air chamber 9 is formed by an inlet 6 a communicating with the outlet 2 c of the radial strut 2.
While communicating with the hollow 2a of the radial strut 2,
Outlet 6 communicating with opening 23a opened in intermediate shaft 23
b also communicates with the cooling air passage 25.

Since the present embodiment is constructed as described above, the cooling air supplied from the outside enters the cooling air introduction chamber 4 through the cooling air inlet pipe 5, and then enters the hollow 2a of the radial strut 2. Through the air chamber 9 in the intermediate shaft cover 6, flows out of the air chamber 6 in the direction of the bold arrow, and cools the outer peripheral surface of the gas turbine rotor 20 and a cooling location that needs to be cooled in the gas turbine.

The compressed air which is rectified by the inner diffuser 1 and the outer diffuser 16 and flows out of the outlet is diffused into the combustor chamber 10 as shown by the thin line arrow and the dotted arrow, and is compressed by the compressor 15. From 400 to
The compressed air at 450 ° C. is not blocked by the radial struts 2, so that the rectification of the air flux is ensured.

Further, by employing the radial strut 2 having a narrow width facing the streamline of the compressed air flowing out from the outlets of the diffusers 1 and 16, the diffusers 1 and 16 are used.
The space on the outlet side is widened, and a sufficient area of the combustor 12, 13 to go from the inner diameter side to the outer diameter side can be sufficiently secured, so that the pressure loss generated at this time can be reduced.

Furthermore, there is no need to install the cooling air inlet pipe 5 inside the outer casing 3, that is, inside the combustor chamber 10, so that piping work, which is difficult to perform, becomes unnecessary.
There is a margin in the space between the combustors 12, 13 and the outer peripheral surface of the outer diffuser 16, which facilitates the assembly and disassembly of the gas turbine, and reduces the number of parts.

Further, the hollow 2a of the radial strut 2
By providing an insert in the radial strut 2, thermal stress generated in the radial strut 2 can be reduced, the strength can be maintained, and deformation and the like can be prevented.

[0029]

As described above, according to the gas turbine cooling air introducing apparatus of the present invention, the configuration according to claim 1 has the following advantages. (1) The block by the cooling air inlet pipe on the downstream side of the diffuser is eliminated, and the diffuser As a result, the turbulence of the rectified flow is eliminated, and the pressure loss can be reduced.

(2) It is possible to secure a sufficient area that goes from the inner diameter side to the outer diameter side of the combustor, and it is possible to reduce the pressure loss.

(3) It is easy to assemble and disassemble,
The number of parts can be reduced, resulting in cost reduction.

Further, according to the gas turbine cooling air introduction device of the present invention, the configuration described in claim 2 can reduce the thermal stress generated in the radial strut and prevent the radial strut from being deformed or damaged. .

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing a gas turbine cooling air introduction device according to an embodiment of the present invention around a combustor of a gas turbine.

2 is a cross-sectional view of the radial strut taken along the line AA shown in FIG.

FIG. 3 is a longitudinal sectional view around a combustor of a conventional gas turbine.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Inside diffuser 2 Radial strut 2a Hollow 2b Inlet 2c Outlet 2d Insert 3 Outer casing 3 'Outer casing protrusion 4 Cooling air introduction chamber 4a Front end wall 4b Outer peripheral wall 4c Inner peripheral wall 4d Rear end wall 4e Inlet 4f Outlet 5 Cooling air inlet pipe 6 Intermediate shaft cover 6a Inflow port 6b Outflow port 7 Partition wall 8 Extension material 9 Air chamber 10 Combustor chamber 11 Nozzle 12 Combustor (inner cylinder) 13 Combustor transition piece 14 First stage stationary blade 15 Compressor 15 'Compression Stationary blade of machine 16 Outer diffuser 17 Inner diffuser 18 Outer casing (combustor chamber) 19 Moving blade 20 Gas turbine rotor 21 Flexible tube 22 Intermediate shaft cover 23 Intermediate shaft 23a Opening 24 Air chamber 25 Cooling air passage 26 Cooling air inlet tube

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-46-5652 (JP, A) JP-A-63-259125 (JP, A) JP-A-4-209934 (JP, A) JP-A-6-259934 173710 (JP, A) JP 6-102986 (JP, B2) JP 6-96988 (JP, B2) JP 6-102993 (JP, B2) (58) Fields surveyed (Int. Cl. ⁷ , DB name) F02C 7/16 F02C 7/18 WPI (DIALOG)

Claims (2)

(57) [Claims] 1. A cooling air introduction device provided in a gas turbine for supplying cooling air introduced from the outside to a cooling point of the gas turbine equipped with a compressor, wherein the diffuser is installed on a downstream side of the compressor. provided in the outlet side, wherein the radial struts in the hollow structure of large cross-sectional shape of the slenderness ratio for forming a supply path of the cooling air, the cooling air outside the casing from the outer portion opened to the outer casing One end communicates with the cooling air inlet pipe introduced into the inside, and the other end communicates with the inside of the radial strut.
A cooling air introduction chamber provided on the outer peripheral side of the diffuser, and an intermediate shaft cover provided to surround the outer periphery of the gas turbine rotor, one end communicating with the inside of the radial strut, and the other end A gas turbine cooling air introduction device, wherein an air chamber communicating with a cooling point is provided. 2. The gas turbine cooling air introduction device according to claim 1, wherein an insert is provided inside said radial strut.