SE522064C2 - Support for combustion chamber, especially for turbine, comprises ring with opposite ends connected to chamber and mounting around it - Google Patents

Abstract

The ring-shaped support (10) continues to provide support for the chamber (12) even when there is a temperature difference between the chamber and the mounting (14) around it. The support has a first end section (16) for connecting to the chamber and a second end section (18) for connecting to the mounting. An Independent claim is also included for a turbine device.

Description

g5 20 25 30 35 522 064 There are gas turbines which have a main extent in an axial joint, corresponding to a turbine shaft, and which have an annular combustion chamber. This annular combustion chamber is arranged around the turbine shaft and often extends axially. The annular combustion chamber. has a. outlet opening.

It is often important that this outlet opening is kept in a specific position. This ensures that the combusted gas is properly led to subsequent turbine inlets.

Furthermore, it is important that this annular combustion chamber cannot move in a direction of rotation around the turbine shaft, i.e. that torsion in the combustion chamber is avoided. The annular combustion chamber is often held in place relative to a turbine housing with in to When a temperature difference is present, the help of struts extending from the turbine housing the combustion chamber. the combustion chamber and the turbine housing, a certain relative movement due to this temperature difference can lead to the turbine's performance being reduced or to the desired functional safety of the turbine not being achieved.

SUMMARY OF THE INVENTION The object of the present invention is to provide a secure holding of a combustion chamber means in a holding means even when there is a temperature difference between the combustion chamber means and the holding means.

This object is achieved with a support member according to claim 1.

It has been found that with such an annular support member a combustion chamber member can be securely held in place in a holding member. It should be pointed out that the combustion chamber member may comprise combustion chambers of many different types. Thus, the combustion chamber means may comprise a single large annular combustion chamber arranged in a holding means. A further possibility is that the combustion chamber means comprises a number of separate combustion chambers which are arranged in an annular shape and which are held in a holding means. It is also possible to support other types of combustion chamber means by means of the support means according to the invention.

According to the invention, said intermediate portion is formed with a plurality of heels extending from a first to a second side surface of said intermediate portion. This reduces the weight of the support member. In addition, said hollow allows passage of a fluid through said intermediate portion. thus allowing the support body. In addition, said heel contributes to the support member, for example, being able to pass the turbine through having a certain flexibility in a radial direction. Thereby, the support member can accommodate a certain radial expansion of a combustion chamber member which is supported by the support member.

According to the invention, said intermediate portion comprises a plurality of support members extending substantially from said first end portion to said second end portion, each of said plurality of support members inclined relative to a line defined by extending from a point located at each support member to the first end portion and by that from. this point extends the shortest path to the other end portion. By the said plurality of support parts being inclined, the rigidity of the support member in rotational direction is ensured. That is, a torsional movement of the support member is avoided. a plurality of first and a second group, the support members in the first According to the invention, said support members form a group are arranged so as to cross support members in the second group. This for torsional rotation of the support element. According to one embodiment of the support member according to the invention, said first end portion has an extension substantially along a first plane and said second end portion has an extension substantially along a second plane. A support member according to this embodiment is relatively simple to manufacture.

According to yet another embodiment of the support means, said first and second planes are parallel to each other. With such a support member, the combustion chamber member is securely held in place in the holder member.

According to a. In a further embodiment of the support means, said plurality of support parts are formed from the material in said intermediate portion which is present between said holes. The holes are thus designed so that said first and second group of inclined support parts are formed by the material between the holes.

According to yet another embodiment of the support member, the intermediate portion has substantially the shape of a truncated cone. With such a support member, for example, an annular combustion chamber can be securely held in place in a holding member.

According to yet another embodiment of the support member, the intermediate such member is easy to manufacture and functions well as the supporting portion substantially cylindrical shape. means for supporting the combustion chamber means. The object of the invention is also achieved with a turbine device according to claim 7. thus the holding means by means of said support means.

In such a turbine device, the combustion chamber member is held securely in place relative According to the invention, the turbine device is a gas turbine. In a gas turbine, especially at an initial stage, a temperature difference arises between the combustion chamber means and the holding means. In such a gas turbine, the burner means is securely held in place by means of the support means. 10 15 20 25 30 35 522 064 According to includes annular combustion chamber. The present invention has proven to be particularly applicable in connection with such an annular combustion chamber.

According to an embodiment of the turbine device, the turbine device extends along a central longitudinal axis which defines an axial direction parallel to it. said longitudinal axis and. one. radial direction 'perpendicular to said longitudinal axis, wherein. the turbine device. is arranged so that a main flow of a turbine medium through the turbine device takes place in said axial direction, said second end portion being located downstream of said first end portion with respect to the main flow direction of the turbine medium. It has proved particularly advantageous to arrange a support member according to the invention in this way in such a turbine device.

According to a further embodiment of the turbine device, the turbine device comprises an outer casing and said holding means are directly connected to the outer casing. The holding member can thus be securely fixed in the outer casing (turbine housing). The combustion chamber member is thus held securely on the pallet both relative to the holding member and relative to the outer casing.

According to a further embodiment of the turbine device, the turbine device comprises an outer casing and said holding means are constituted by the outer casing. Thus, said support means can extend directly from the outer casing (turbine housing) to the combustion chamber means.

According to a further embodiment of the turbine device, the combustion chamber means, seen in a cross section through the turbine device comprising said central longitudinal axis, comprises a combustion chamber shaft central to this cross section of the combustion chamber means, said intermediate portion, seen in said cross-section through the turbine device comprising said central longitudinal axis extends substantially along a straight line, this straight line forming an angle relative to said combustion chamber axis which is less than 70 °. Because there is a relatively small angle between said combustion chamber axis and said straight line, the expansion and movement of the annular combustion chamber in the axial direction is affected by a This contributes to the combustion chamber outlet being able to be held securely in place. corresponding movement of the support member.

According to a further embodiment of the turbine device, said central combustion chamber shaft forms an angle different from 0 ° relative to said central longitudinal axis. Suitably in this case the annular combustion chamber slopes slightly towards the said central longitudinal axis. Such an arrangement in a turbine device with an annular combustion chamber has proved to be particularly advantageous.

According to a further embodiment of the turbine device, said straight line forms an angle different from 0 ° relative. From a constructional point of view, it has proved advantageous for at least the intermediate said central longitudinal axis. the portion of the support member is inclined slightly relative to the central longitudinal axis. In this case, the combustion chamber member can be securely held in place relative to, for example, the turbine housing.

According to yet another embodiment of the turbine device, the support means is designed and arranged in the turbine device so that, when the combustion chamber means is heated, the movement of the combustion chamber means in axial direction and in a direction of rotation about said longitudinal axis is allowed while some expansion of the combustion chamber means. This ensures that the combustion chamber and the combustion chamber's outlet opening are kept securely in place while any expansion of the combustion chamber member is allowed to take place in the radial direction. Thereby, a disturbing effect of the expansion of the combustion chamber member is avoided.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be explained by means of described embodiments and with reference to the accompanying drawings.

Fig. 1 schematically shows a sectional view of a part of a turbine device according to the invention.

Fig. 2A shows a perspective view of a support member according to the invention.

Fig. 2B shows a part of the support member according to Fig. 2A seen from the side and enlarged.

Fig. 2C shows a cross-section of the support member according to the invention, which cross-section is marked with A-A in Fig. 2B.

Figures 3, 4 and 5 schematically show different embodiments of a support member according to the invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION The invention will now be described in connection with a gas turbine plant.

Since a gas turbine plant with an annular combustion chamber is well known to those skilled in the art, such a gas turbine plant will usually comprise a compressor for laying will not be described in more detail below. compression of incoming combustion air, a combustion chamber device, a turbine and a diffuser.

These different parts are "often arranged one after the other" in the longitudinal direction of the gas turbine plant. Furthermore, the gas turbine plant comprises a rotor which rotates about an axis of rotation. The gas turbine plant also includes a turbine housing, also called a turbine housing.

Fig. 1 shows a sectional view of a part of such a gas turbine plant. The axis of rotation is symbolically indicated by x.

The axis of rotation> <constitutes a central longitudinal axis along Around this rotating device.

The combustion chamber 12 is held in place relative to the turbine housing 34, which the turbine plant extends. shaft x is an annular combustion chamber The gas turbine plant comprises a plurality of burner means 11. Fig. 1 shows a cross section of such an annular combustion chamber 12 with a burner means 11. A combustion medium, is conducted There combustion by means of combustion- usually a mixture of fuel and air , into the combustion chamber 12. the narcotics 11. The burned. the gases are led 'through an' outlet opening 13 to drive a turbine. A first turbine blade 15 in the turbine is shown in Fig. 1.

The combustion chamber 12 comprises a central combustion chamber shaft y for the cross-section through the turbine device shown in Fig. 1.

This central combustion chamber axis y forms an angle d relative to the central longitudinal axis x. This angle d may be 0 °, but according to the preferred embodiment shown, this angle d is different from 0 °. 10 ° and 20 °.

The angle d may be, for example, between the central longitudinal axis x of the turbine device defines an axial direction a parallel to the longitudinal axis x and a radial direction b perpendicular to said longitudinal axis x. A main flow of a turbine medium through the turbine device takes place in said axial direction a The combustion chamber 12 comprises a front inner and outer combustion chamber wall 17, 17 'and a rear hood 19 which partially encloses the burner means 11.

The turbine device comprises a support member 10. The support member 10 extends from the combustion chamber 12 to a holding member 14. This holding member 14 is fixedly connected to the turbine housing 34. Thus, the support member 10 ensures the position of the combustion chamber 12 relative to the turbine housing 34. According to an alternative embodiment, the support member 10 is directly connected with the turbine housing 34. In this case, the turbine housing 34 thus constitutes a holding member.

The support means comprises a first end portion 16 which is connected to the combustion chamber 12. In the embodiment shown, this first end portion 16 is directly connected to the hood 19 of the combustion chamber 12. It is also conceivable that some form of holding means is present between said first end portion 16 and the combustion chamber 12. Such a holding means can thus conceivably be included in the combustion chamber means mentioned in the claims. The support means 10 comprises a second end portion 18. This second end portion 18 is connected to the holding means 14. The support means also comprises an intermediate portion 20 extending from the first end portion 16 to the second end portion 18. In the embodiment shown, said intermediate portion 20, seen in the cross section of the turbine device shown in Fig. 1, substantially along a straight line 36. This straight line 36 forms an angle c relative to the combustion chamber axis y. This angle c may vary. 40 °. For example, the angle c may be between 10 ° and 35 °. is relatively small several benefits are obtained. When the combustion chamber and preferably the needle 15 ° By heating the angle c 12 and thus tending to expand in the axial direction a, the movement in the axial direction a is counteracted by the support member 10 tending to expand in an opposite axial direction as well. Expansion of the support member 10. thus counteracts the expansion of the combustion chamber 12. This means that the outlet opening 13 of the combustion chamber 12 of the combustion chamber 12 is substantially kept in the same position even when the combustion chamber 12 is heated.

In the embodiment shown, the support member 10 is also arranged so that said straight line 36 forms an angle e relative to the central longitudinal axis x. Preferably, this angle e is different from 0 °. 0 ° and 30 °. For example, this angle e may be between preferably between 5 ° and 20 °.

Thus, with the construction shown, the second end portion 10 of the support member 10 is located at the bottom of said first end portion 16 with respect to the main flow direction of the turbine medium flowing through the turbine device.

The support member 10 according to the invention will now be described in more detail with reference to Figs. 2A, B and C. The support member 10 is In the embodiment shown, the first end portion 16 extends annularly and comprises a first end portion 16. substantially along a circle. The first end portion 16 thus has an extension substantially along a first plane.

Furthermore, the support member 10 comprises a second end portion 18.

The second end portion 18 also extends, according to the embodiment thus substantially extended, substantially along a circle. has said second end portion along a second plane. The support member 10 also includes an annular intermediate portion 20 extending from the first end portion 16 to the second end portion 18. In the embodiment shown, the intermediate portion 20 is substantially in the shape of a truncated cone, more particularly a straight circular truncated cone. The appearance of such a straight circular truncated cone is also shown in Fig. 3.

Fig. 4 and Fig. 5 show alternative embodiments of the intermediate portion 20. Thus, Fig. 4 shows an intermediate portion 20 having the shape of a circular cylinder.

According to Fig. 5, the intermediate portion 20 has a shape which resembles a straight circular truncated cone but where the side surfaces are constituted by a curve. Other embodiments of the annular support member 10 are also satisfactory. Thus, for example, the intermediate portion 20 need not have circular cross-sections. For example, an oval shape is also possible.

As already described in connection with Fig. 1, the first end portion 16 of the support member 10 is designed to be connected to the combustion chamber member 12. The second end portion 18 is designed to be connected to the holding member 14.

After the support member 10 according to the embodiment shown has a adjacent portion 20 which has the shape of a straight circular truncated cone, said first and second planes are parallel to each other. plurality of heels 22. These holes 22 extend from a first 24 to a The intermediate portion 20 is formed with a second 26 side surface of the intermediate portion 20. Said first side surface 24 thus constitutes the outside of the support member 10.

Said second side surface 26 constitutes the inside of the support member 10.

Said hole 22 defines a plurality of support members 28, 30 formed present between the heel 22. of the material in the intermediate portion 20 as the Support members 28, substantially from. the first end portion 16 to the second. located there a support member 28, extends the shortest path to the second end portion 18.

The angle of inclination between a support part 28a and said line 32 is in Fig. 2B marked with f. This angle f can be the same for all support parts 28, 30, but it can also be different for different support parts 28, be between 20 ° and 70 °, Said angle f may, for example, preferably be between 30 ° and 60 °. According to the embodiment shown, the support members 28, 30 form a first and a second group. The support members 28 in the first group are arranged to intersect support members 30 in the second group. Through this construction, the rigidity of the support member 10 is ensured in a direction of rotation. When the support member 10 is arranged in a turbine device, the support member 10 thus counteracts that torsional forces rotate the combustion chamber member 12.

As can be seen in Fig. 2B, the upper part 28a of the support part 28 may be slightly offset laterally compared to the lower part 28b of the support part 28. 30.

The same applies to the support parts. With a support member 10 according to the invention, the combustion chamber member 12 is securely held in a turbine device. Thus, the movement of the combustion chamber member 12 in the axial direction a and i is prevented. A direction of rotation about said longitudinal axis X. A certain extension of the combustion chamber member 12 in the radial direction b is allowed because the support member 10 is designed to allow a certain movement in this radial direction b. Because the support member 10 is provided with holes 22, this movement in the radial direction b is facilitated. Furthermore, the weight of the support member 10 is reduced through these heels 22. Through said hole 22 a turbine medium is also allowed to flow.

A support member 10 according to the invention can be manufactured in different dimensions depending on the dimensions of the holding member 14 and the combustion chamber member 12 between which the support member 10 is to be arranged. The support member may, for example, have a diameter of more than 1 meter, for example a diameter of between 2 and 4 meters.

The support member 10 according to the invention can be manufactured in, for example, a suitable steel material. The present invention is not limited to the embodiments shown but may be varied and modified within the scope of the appended claims.

Claims (14)

10 15 20 25 30 35 522 064 n n nu nu 14 Patent Claims A support means (10) designed to support a combustion chamber means (12) in a gas turbine, the combustion chamber means comprising an annular combustion chamber and (14) the support means being arranged in an outer holding means which. at least (12), is designed to ensure support of the combustion chamber (12) (14) is present between the combustion chamber means (14), shaped and comprises a first end portion (18) extending partially enclosing the combustion chamber means (10) means in the holding means even when temperature difference - (12) and holding characterized in that the support member (10) (16), the member is an annular second and an annular intermediate portion (20) (16) to the first end portion end portion extending from said first end portion (18) , is designed to be connected to the combustion chamber means (18) (14), said intermediate being formed with a plurality of holes (22) (24) to a second (26) said intermediate portion (20), said intermediate (20) comprising a plurality of support members (28, 30) extending substantially from said first end portion (18), (28, 30) said second end portion (16) (12) bonded to the holding member (20) from a first and the second end portion are configured to be a front part that extends the side surface of a part that (16) to said second end portion, each of said plurality of support members inclined relative to a line (32) defined by extending from a point located where respective support member (28, 30) connects to the first end portion (16) and by the from this point the shortest path extends to the second end portion and that said plurality of support members (28, 30) (18) form a first and a second group, the support members (28) i. the first group being arranged so as to cross support members (30) in the second group. Support means (10) according to claim 1, characterized in that said first end portion (16) has an extension substantially n 'now along a first plane and that said second end portion (18) has an extension substantially along a second plane. Support means (10) according to claim 2, characterized in that said first and second planes are parallel to each other. Support means (10) according to any one of claims 1-3, characterized in that said plurality of support parts (28, 30) are formed of the material in said intermediate portion (20) present between said holes (22). Support means (10) in that the intermediate portion according to any one of claims 1-4, (20) is characterized substantially in the form of a truncated cone. Support means (10) in that the intermediate portion according to any one of claims 1-4, (20) is characterized substantially in a cylindrical shape. Turbine device, comprising a holding means and (12) combustion chamber and arranged in the holding means (14) (12), characterized in that the turbine device comprises (10) (10) first (14) annular (14) enclosing a combustion chamber means comprising a so that in part the holding means is at least the combustion chamber means, said turbine device being a gas turbine, a support means according to any one of the preceding claims, the support means being arranged in the turbine device so that (16) is connected and said second end portion (14). with (18) said end portion (12) is connected to the holding means by the combustion chamber means Turbine assembly according to claim 7, characterized in that the turbine assembly extends along a central longitudinal axis (x) defining an axial direction (a) parallel to said longitudinal axis (x) and a radial direction (b) perpendicular to said longitudinal axis (x). x), wherein the turbine n ouco 522 064 10 15 20 25 30 35 16 device is arranged so that a main flow of a turbine medium through the turbine device takes place in said axial (a), (18) downstream of said first end portion (16) with with respect to the direction in which said second end portion is located the main flow direction of the turbine medium. Turbine device according to claim 8, characterized in that (34) is directly connected to the outer turbine device comprising an outer casing and in that said holding means (14) the casing (34). Turbine device according to Claim 8, characterized in that (34) is constituted by the outer casing and in that (34). the turbine device comprises an outer casing said holding means (14) 8-10, seen in one of the claims (12), comprises 11. ll. Turbine device according to any one of characterized in that the combustion chamber means as said for this central combustion chamber shaft (20), longitudinally through the turbine device central longitudinal axis (x), comprises a longitudinal section of the combustion chamber means, said intermediate portion seen in said longitudinal section through the turbine device longitudinal axis extends substantially (36) (36) forming relative to said combustion chamber axis (y) sonl is (X), along a straight line and that this straight line an angle (c) less than 70 degrees. Turbine device according to claim 11, characterized in that it forms an angle (d) different from 0 degrees relative to said central longitudinal said central combustion chamber axis (y) axis (x). Turbine device according to claim 11 or 12, characterized (36) different from 0 degrees relative to said central longitudinal axis (x). of said straight line forming an angle (e) n nnnn nnn nnn n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n Turbine device according to one of Claims 8 to 13, characterized in that the support member (10) is designed and arranged in the turbine device so that, when the combustion chamber member (12) is heated, the movement of the combustion chamber member (12) in the axial direction (a) and in a direction of rotation about said longitudinal axis (x) is counteracted while some expansion of the combustion chamber member (12) in radial direction (b) is allowed.