DE102016108461A1 - gas turbine - Google Patents

Abstract

Gas turbine, with a compressor, in which air can be compressed; with a burner having at least one combustion chamber to which the air compressed in the compressor can be supplied and in which in the presence of the compressed air, a fuel is combustible while heating the air; with a turbine, in which the heated air is depressurable; wherein the heated air from the respective combustion chamber of the burner of the turbine is supplied via a respective intermediate piece (24), which with a downstream end (25) on a guide vane carrier (26) of the turbine, is attached; wherein the respective intermediate piece (24) at the downstream end (25) has at least one fastening element (27) with at least one threaded bore (28) having an internal thread; wherein the respective fastening element (27) of the respective intermediate piece (24) projects into a recess (29) of the turbine blade carrier (26) of the turbine; wherein the vane support (26) has at least one unthreaded through-groove (30) formed axially open at a portion facing the respective intermediate piece (24); wherein the respective fastening element (27) of the respective intermediate piece (24) via a respective holding element (31) with at least one unthreaded through hole and at least one of the respective through hole of the holding element (31), the respective passageway (30) of the guide vane carrier (26) and the respective threaded bore (28) of the respective fastening element (27) penetrating fastening screw (32) on the guide blade carrier (26) is mounted.

Description

The invention relates to a gas turbine.

The basic structure of a gas turbine, such as an industrial gas turbine, is basically known to the person skilled in the art. Thus, a gas turbine has, as essential components, a compressor, a burner having at least one combustion chamber and a turbine. In the compressor, an air flow is compressed, wherein the compressed in the compressor air flow of the or each combustion chamber of the gas turbine can be fed. In the or each combustion chamber of the gas turbine, a fuel is burned in the presence of the compressed air, whereby the air is heated. The heated air can be supplied from the or each combustion chamber of the turbine of the gas turbine, wherein in the turbine, the heated air is expanded. The performance of such a gas turbine then results from the difference of the output from the turbine and the power absorbed by the compressor. This difference is due to the energy input in the or each combustion chamber of the burner.

As already stated, the heated air, starting from the respective combustion chamber, can be supplied to the turbine via a respective intermediate piece, which is also referred to as a transition piece. Then, when the gas turbine comprises a plurality of combustion chambers, the air of the turbine can be fed from each combustion chamber via an intermediate piece in each case. The respective intermediate piece is attached to a downstream end of a turbine blade carrier. In this case, at least one fastening screw extends in the radial direction of the intermediate piece through a corresponding bore of the guide blade carrier and a corresponding bore of the intermediate piece.

The intermediate pieces or transition pieces, which serve to guide the flow from the respective combustion chamber in the direction of the turbine of the gas turbine, are subject to extreme loads of temperature, pressure and vibration during operation. This has the consequence that the intermediate pieces or transition pieces usually have a lifetime which is shorter than the life of the remaining components of the gas turbine. Therefore, it is necessary to replace the intermediate pieces or transition pieces. This presents difficulties in gas turbines known from practice, namely such that the intermediate pieces or transition pieces can not be exchanged without major assembly work on the remainder of the gas turbine.

There is therefore a need for a gas turbine in which transition pieces or intermediate pieces, which serve to guide the flow of heated air from the respective combustion chamber in the direction of the turbine, can be replaced with less installation effort.

On this basis, the present invention has the object to provide a novel gas turbine. This object is achieved by a gas turbine according to claim 1. According to the invention, the respective intermediate piece has, at the downstream end, at least one fastening element with at least one bore having an internal thread. The respective fastening element of the respective intermediate piece protrudes into a respective recess of the guide blade carrier of the turbine, wherein the guide blade carrier has at least one threadless through-groove, which is formed axially open at a portion facing the respective intermediate piece. The respective fastening element of the respective intermediate piece is mounted on the guide blade carrier via a respective retaining element having at least one unthreaded through-bore and at least one fastening bore of the retaining element, the respective through-hole of the guide-blade carrier and the respective threaded bore of the respective fastening element.

The above embodiment of the gas turbine, namely the attachment of the respective intermediate piece on the guide vane support of the turbine via the respective fastening element and the respective holding element and the or each fastening screw, which the respective unthreaded through-hole of the respective holding element, the respective threadless passageway of the vane support and the respective threaded bore permeates the respective fastener, allows replacement of the respective intermediate piece with little installation effort.

By e.g. simply cutting through the respective fastening screw on a relative to the respective holding member projecting portion, the respective holding element can be removed even with clamping the fastening screw and the respective fastener to be removed in the axial direction of the guide blade carrier. An exchange of spacers or transition pieces can be done without further disassembly of the gas turbine.

Preferably, the respective retaining element engages behind the respective fastening element and the guide blade carrier in the axial direction of the respective intermediate piece or of the guide blade carrier. This allows a particularly advantageous attachment of the respective intermediate piece on the guide blade carrier.

According to an advantageous development of the respective fastener engages the respective Intermediate piece, in particular on a cam-like, in the radial direction of the respective intermediate piece extending projection of the respective intermediate piece about an axis of rotation tiltably hinged. Preferably, the respective axis of rotation extends tangentially to the circumferential direction of the respective intermediate piece. Hereby, a particularly advantageous attachment of the respective intermediate piece on the guide vane carrier is possible. The tiltable connection of the respective fastening element on the respective intermediate piece is of particular advantage here.

According to an advantageous development, a combustion chamber housing, which in each case has a recess for the male flame tube of the respective combustion chamber, has a dimension such that the respective intermediate piece can be mounted on the turbine and removed from the turbine via the latter. As a result, the respective intermediate piece can be easily removed from the gas turbine in the axial direction without having to carry out a further disassembly on the gas turbine.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawings. Showing:

1 a gas turbine in cross section;

2 a perspective view of a detail of the gas turbine of 1 ;

3 the detail of the gas turbine of 2 with disassembled retaining element;

4 a top view 3 ; and

5 a perspective view of another detail of the gas turbine of 1 ,

The invention relates to a gas turbine. 1 shows an axial section through a gas turbine 10 in the area of a compressor 11 , a turbine 12 and having at least one combustion chamber, between the compressor 11 and the turbine 12 switched burner 13 , From the compressor 11 are a stator-side housing 14 and a rotor-side shaft 15 shown with several compressor stages. From the turbine 12 are a stator-side housing 16 and a rotor-side shaft 17 shown with several turbine stages. The rotor-side shaft 15 of the compressor 11 and the rotor-side shaft 17 the turbine 12 are coupled with each other.

From the burner 13 is a burner housing 18 shown which between the stator-side housing 14 of the compressor 11 and the stator-side housing 16 the turbine 12 is switched. Preferably, the burner housing 18 several recesses 19 on, with each recess 19 the inclusion of at least one flame tube 20 a respective combustion chamber 21 serves. About the circumference of the burner housing 18 these are recesses 19 for receiving the flame tubes 20 preferably arranged uniformly in the circumferential direction.

The compressor 11 serves to compress an air flow. The compressed air flow leaves the compressor 11 via a diffuser 22 and passes over the diffuser 22 in an annular flow channel 23 from the burner housing 18 provided.

Starting from this annular flow channel 23 of the burner housing 18 the compressed air reaches the area of each combustion chamber 21 and thus in the area of each flame tube 20 , wherein in the region of the respective combustion chamber 21 a fuel is burned and in this case the air is heated.

The heated air is taken from the respective combustion chamber 21 the turbine 12 supplied, with intermediate pieces 24 serve. Starting from each combustion chamber 21 The heated air can each have an intermediate piece 24 the turbine 12 the gas turbine 10 be supplied.

2 and 3 show perspective detail views of an intermediate piece 24 , via which starting from a combustion chamber 21 heated air of the turbine 12 can be fed, the in 2 and 3 shown intermediate piece 24 at a downstream end 25 with a vane carrier 26 the turbine 12 connected is. The present invention relates to details of the connection of such an intermediate piece 24 with the vane carrier 26 the turbine 12 ,

This in 2 and 3 shown intermediate piece 24 is with its downstream end 25 via at least one fastening element 27 on the vane carrier 26 the turbine 12 fastened, wherein the respective fastening element 27 at least one hole 28 having an internal thread. 4 can be seen that on the fastener shown 27 two such threaded holes 28 are formed with internal thread.

The respective fastener 27 of in 2 and 3 shown intermediate piece 24 protrudes in the axial direction in a respective recess 29 of the vane carrier 26 the turbine 12 into it, with the respective recess 29 open in the axial direction and the respective intermediate piece 24 is facing. The vane carrier 26 has at least one Threadless through groove 30 having, at one the intermediate piece 24 facing portion is axially open. 4 can be found that for each fastener 27 on the vane carrier 26 two such threadless, axially extending through grooves 30 are formed.

With the respective fastener 27 and the vane carrier 26 acts to fix the in 2 and 3 shown intermediate piece 24 on the vane carrier 26 a respective retaining element 31 together, which has at least one unthreaded through hole. Each of these unthreaded through holes of the respective holding element 31 serves for receiving and guiding each of a fastening screw 32 , The respective fixing screw 32 Penetrates the respective threadless through hole of the holding element 31 , the respective threadless through groove 30 of the vane carrier 26 and the respective threaded hole 28 of the fastener 26 , 2 can be seen that the respective holding element 31 the respective fastener 27 and the vane carrier 26 When viewed in the axial direction, it engages or engages in sections.

The fixation of the respective intermediate piece 24 on the vane carrier 26 the turbine 12 Accordingly, by the interaction of at least one fastener 27 and a corresponding holding element 31 with at least one fixing screw 32 , The or each fixing screw 32 generates a force between the respective fastener 27 and the vane carrier 26 , whereby a frictional connection is formed. Furthermore, fix the fixing screws 31 and the respective holding element 31 the respective fastener 27 via a positive connection.

The respective threaded hole 28 of the respective fastening element 27 , the respective through-groove 30 of the vane carrier 26 and the respective non-threaded through hole of the respective holding element 31 aligned in the radial direction, wherein the respective fastener 27 seen in the radial direction between a radially inner portion of the intermediate piece 24 and the radially outer retaining element 31 is positioned.

In the illustrated preferred embodiment, the vane carrier 26 executed shared, wherein the same one the respective intermediate piece 24 facing first part 34 and one from the respective intermediate piece 24 remote second part 33 having. Here is the recess 29 of the vane carrier 26 at the intermediate piece 24 facing part 34 of the vane carrier 26 educated. Likewise, the threadless Durchgangsnuten 30 at this part 34 of the vane carrier 26 educated.

In the illustrated preferred embodiment of the invention, the respective fastener engages 27 at the intermediate piece 24 around a rotation axis 35 tiltable articulated, with this axis of rotation 35 tangential to the circumferential direction of the respective intermediate piece 24 extends. The respective fastener 27 grips over the respective axis of rotation 35 on a cam-like, radially extending projection 36 of the intermediate piece 24 on, with this projection 36 with an axial surface on an axial surface of the vane carrier 26 is applied.

The respective fastener 27 protrudes into the respective recess 29 of the vane carrier 26 in the axial direction in sections, with an insertion depth of the respective fastener 27 in this recess 29 of the vane carrier 26 by a radially outer projection 37 of the fastener 27 is limited. How best 2 can be removed, engages or engages behind the respective holding element 31 this lead 37 of the fastener 27 in the axial direction on one side.

How best 2 and 3 can be taken, form the two parts 33 and 34 of the vane carrier 26 inside grooves, in which vanes with corresponding sections 38 are threaded. The vanes 39 form a Leitschaufelkranz serve the flow of the heated air from the intermediate piece 24 towards a blade ring of the turbine adjacent the vane ring 12 , The vanes 39 have flow inlet edges 40 , Flow outlet edges 41 and above itself between the flow entry edges 40 and the flow exit edges 41 extending, the flow guide serving pressure sides and suction sides.

For disassembling an intermediate piece 24 only needs one or each fixing screw 32 dissolved or at terminals thereof at a radially outward relative to the respective holding element 31 section above be severed. Then then the corresponding holding element 31 simply be dismantled. Then then the respective intermediate piece 24 in the axial direction of the guide vane carrier 26 be removed, and that by the respective fastener 27 optionally together with the or each still in the fastener 27 stuck, cut through fastening screw 32 in the axial direction from the respective passage groove 30 and recess 29 in the vane carrier 26 is pulled out in the axial direction. It is not necessary on the vane carrier 26 the turbine 12 access.

It is also proposed, the recesses 19 of the burner housing 18 to design such that the same over the intermediate pieces 24 can be mounted and dismounted, from which it follows that an inner diameter of the recesses 19 is greater than an outer diameter of the spacers 24 , This allows easy over the recesses 19 in the combustion chamber housing 18 a worn intermediate piece 24 removed and a new intermediate piece 24 positioned and on the vane carrier 26 to be assembled.

The above embodiment of the gas turbine 10 , namely the attachment of the respective intermediate piece 24 on the vane carrier 26 the turbine 12 over the respective fastener 27 and the respective holding element 31 and the or each fixing screw 32 , which the respective threadless through hole of the respective holding element 31 , the respective threadless through groove 30 of the vane carrier 26 and the respective threaded hole 28 of the respective fastener 27 permeates, allows an exchange of the respective intermediate piece 24 with low installation costs. Even if the or each fixing screw 32 should be defective, the respective intermediate piece 24 from the vane carrier 26 the turbine 12 in the axial direction towards the burner 13 from the vane carrier 26 subtracted and on the appropriately sized recess 19 of the burner housing 18 be removed in order to reverse a new intermediate piece 24 on the vane carrier 26 to assemble. The fixing screws 32 are with their external threads exclusively with a fastener 27 of the respective intermediate piece 24 engaged. In the area of the vane carrier 26 penetrate the mounting screws 32 exclusively the axially open, threadless through grooves 30 and in the region of the respective holding element 31 the threadless through holes. The fixing screws 32 and holding element 31 are above closed mounting holes of the burner housing 18 accessible, 1 shows such closure such a mounting opening.

LIST OF REFERENCE NUMBERS

10

gas turbine

11

compressor

12

turbine

13

burner

14

casing

15

wave

16

casing

17

wave

18

burner housing

19

recess

20

flame tube

21

combustion chamber

22

diffuser

23

flow channel

24

connecting piece

25

The End

26

guide vane

27

fastener

28

threaded hole

29

recess

30

through groove

31

retaining element

32

fixing screw

33

part

34

part

35

axis of rotation

36

head Start

37

head Start

38

section

39

vane

40

Flow inlet edge

41

Flow outlet edge

42

shutter

Claims (10)

Gas turbine ( 10 ), with a compressor ( 11 ), in which air compressible; a at least one combustion chamber ( 21 ) burner ( 13 ) in which the compressor ( 11 ) compressed air can be supplied and in which in the presence of the compressed air, a fuel is combustible under heating of the air; a turbine ( 12 ), in which the heated air is relaxing; wherein the heated air from the respective combustion chamber ( 21 ) of the burner ( 13 ) of the turbine ( 12 ) via a respective intermediate piece ( 24 ) which can be fed with a downstream end ( 25 ) on a guide vane carrier ( 26 ) of the turbine ( 12 ), is attached; characterized in that the respective intermediate piece ( 24 ) at the downstream end ( 25 ) at least one fastening element ( 27 ) with at least one threaded hole having an internal thread ( 28 ) having; the respective fastening element ( 27 ) of the respective intermediate piece ( 24 ) in a recess ( 29 ) of the vane carrier ( 26 ) of the turbine ( 12 protruding, wherein the guide vane carrier ( 26 ) at least one threadless through groove ( 30 ), which at a respective intermediate piece ( 24 ) facing portion is formed axially open; the respective fastening element ( 27 ) of the respective intermediate piece ( 24 ) via a respective retaining element ( 31 ) with at least one unthreaded through-hole and with at least one of the respective through-hole of the holding element ( 31 ), the respective through-groove ( 30 ) of Guide vane carrier ( 26 ) and the respective threaded hole ( 28 ) of the respective fastener ( 27 ) penetrating fastening screw ( 32 ) on the vane carrier ( 26 ) is mounted. Gas turbine according to claim 1, characterized in that the respective holding element ( 31 ) the respective fastening element ( 27 ) and the vane carrier ( 26 ) in the axial direction of the respective intermediate piece ( 24 ) seen behind. Gas turbine according to claim 1 or 2, characterized in that the respective fastening element ( 27 ) at the respective intermediate piece ( 24 ) about a rotation axis ( 35 ) tilts articulated. Gas turbine according to claim 3, characterized in that the respective axis of rotation ( 36 ) tangentially to the circumferential direction of the respective intermediate piece ( 24 ). Gas turbine according to claim 3 or 4, characterized in that the respective fastening element ( 31 ) over the axis of rotation ( 35 ) on a cam-like projection ( 36 ) of the respective intermediate piece ( 24 ) attacks. Gas turbine according to claim 5, characterized in that the cam-like projection ( 36 ) in the radial direction of the respective intermediate piece ( 24 ) and having an axial surface on an axial surface of the vane carrier ( 26 ) is present. Gas turbine according to one of claims 1 to 6, characterized in that the respective threaded bore ( 28 ) of the respective fastener ( 27 ), the respective through-groove ( 30 ) of the vane carrier ( 26 ) and the respective through hole of the respective holding element ( 31 ) are aligned in the radial direction. Gas turbine according to one of claims 1 to 7, characterized in that the guide vane carrier ( 26 ) of the turbine ( 12 ) is divided and a the respective intermediate piece ( 24 ) facing part ( 34 ) and one of the respective intermediate piece ( 24 ) remote part ( 33 ), wherein the or each axially open groove ( 30 ) of the vane carrier ( 26 ) at the respective intermediate piece ( 24 ) facing part ( 34 ) of the vane carrier ( 26 ) is trained. Gas turbine according to one of claims 1 to 8, characterized by a burner housing ( 18 ), which for a male flame tube ( 20 ) of the respective combustion chamber ( 21 ) each have such a dimensioned recess ( 19 ), so that above the respective intermediate piece ( 24 ) on the turbine ( 12 ) and from the turbine ( 12 ) is removable. Gas turbine according to one of claims 1 to 9, characterized in that the respective fastening element ( 27 ) of the respective intermediate piece ( 24 ) in the axially open and the respective intermediate piece ( 24 ) facing recess ( 29 ) of the vane carrier ( 26 ) of the turbine ( 12 ) protrudes in sections in the axial direction, wherein a projection ( 37 ) of the respective fastener ( 27 ) the axial insertion depth of the respective fastener ( 27 ) in the recess ( 29 ) of the vane carrier ( 26 ).

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