Combustor

Information

  • Patent Application
  • 20070199324
  • Publication Number
    20070199324
  • Date Filed
    February 27, 2006
    18 years ago
  • Date Published
    August 30, 2007
    17 years ago
Abstract
A punched metal plate 51 is constructed so as to be in a ring shape covering a space between the outside wall of the combustor basket 2a and the inside wall of the external cylinder 2c and at the same time is constructed to be a perforated plate having a plurality of holes. In addition, ribs 52 are provided in a radial pattern against the axis of a combustor in a manner that both ends of a rib 52 are in contact with the outside wall of the combustor basket 2a and the inside wall of the external cylinder 2c. Additionally, ribs 52 are provided in a plural number, and the plurality of ribs 52 are arranged so as to be equally spaced in the circumferential direction of a combustor and connected to the external cylinder 2c, thereby supporting the combustor basket 2a.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention


The present invention relates to a gas turbine combustor, and especially, relates to a combustor which is so constructed as to reduce drift and disturbance of airflow flowing through the interior thereof.


2. Description of the Prior Art


A cross-sectional view of FIG. 12 shows a general construction of a gas turbine. As shown in FIG. 12, a gas turbine comprises a compressor 1 compressing the air; combustors 2 being supplied with the air compressed by the compressor 1 and fuels so as to perform combustion; and a turbine 3 being rotary driven by combustion gas from the combustors 2. The compressor 1, the combustors 2 and the turbine 3 are covered by casings 4, respectively. In addition, a plurality of the combustors 2, sixteen pieces for example, are arranged on the outer circumference of a rotor 5 serving as one shaft sharing the compressor 1 and the turbine 3, being equally spaced.


In a gas turbine as described hereinabove, the air compressed by the compressor 1 is supplied to the combustors 2 and the rotor 5 through the interior of the casing 4. Then, the compressed air being supplied to the combustors 2 are used for combustion of fuels being supplied to the combustors 2. In addition, the compressed air being supplied to the interior of the casing 4 and the rotor 5 of the turbine 3 is used for cooling stationary vanes 31 fixed to the casing 4 and rotating blades 32 fixed to the rotor 5 both of which are exposed to high temperature due to combustion gas.


A combustor 2 being provided to such a gas turbine as constructed hereinabove comprises a combustor basket 2a being provided to the fuel-supply side; a transition piece 2b being connected to the combustor basket 2a and injecting combustion gas to the stationary vanes 31 in a first row of the turbine 3; and an external cylinder 2c being inserted so as to be along the inner wall of the casing 4 and covering the combustion basket 2a. Moreover, FIG. 13 shows an enlarged cross-sectional view depicting the vicinity of the combustor 2 in order to describe a detailed construction of the vicinity of the combustor 2.


As shown in FIG. 13, the combustor 2 has a combustor basket 2a comprise a pilot nozzle 21 being provided to the center thereof and performing diffusion combustion; a plurality of main nozzles 22 being provided to the outer circumference of the pilot nozzle 21, equally spaced, and performing premixed combustion; a pilot cone 23 being provided so as to cover the downstream-side tip of the pilot nozzle 21; and main burners 24 being provided so as to cover the downstream-side tips of the main nozzles 22. In addition, the compressor 1 is provided with a compressor outlet 11 for supplying the compressed air to the interior of the casing 4 where the combustor 2 is inserted, and the compressed air discharged from the compressor outlet 11 is supplied to the interior of the combustor basket 2a.


Moreover, in order to describe the detailed construction of a combustor 2, FIG. 14 shows an enlarged cross-sectional view of a combustor basket 2a of a combustor 2. As shown in FIG. 14, a combustor 2 comprises a pilot swirl 25 being installed so as to be in contact with the outer circumference of the pilot nozzle 21 on the upstream side inside the pilot cone 23 and main swirls 26 being installed so as to be in contact with the outer circumference of the main nozzles 22 on the upstream side inside the main burners 24. As a result, the air being supplied to the pilot cone 23 is made uniform in the pilot swirl 25 and at the same time, the air being supplied to the main burners 24 is made uniform in the main swirls 26.


Additionally, the combustor 2 has a plurality of supports 27 provided to the outer circumference of the combustor basket 2a on the upstream side thereof and a rib 29 provided to support a punched metal plate 28 consisting of a perforated plate being provided to the entrance to a space between the external cylinder 2c and the combustor basket 2a on the downstream side. By having the support 27 and the rib 29 connected to the external cylinder 2c and the combustor basket 2a, the combustor basket 2a is supported and fixed to the external cylinder 2c. Furthermore, on the downstream side of the pilot nozzle 21, the main nozzles 22 are fixed by having supports 30 provided to connect the outer circumference of the pilot nozzle 21 to the main nozzles 22.


For a combustor 2 being constructed as described hereinabove, the compressed air being discharged from the compressor outlet 11 to the interior of the casing 4 flows into a space formed between the external cylinder 2c and the combustor basket 2a by way of the punched metal plate 28. The punched metal plate 28 plays a role of uniformizing the compressed air flowing into the combustor 2 by being made of a perforated plate so as to provide resistance. The compressed air flowing into the space between the external cylinder 2c and the combustor basket 2a by way of the punched metal plate 28 flows along the inner wall of the external cylinder 2c.


In consequence, by having the compressed air make 180 degrees turn at the bottom part of the external cylinder 2c (the bases of the pilot nozzle 21 and the main nozzles 22), the compressed air flows in between the supports 27 supporting the combustor basket 2a and is supplied to the interior of the combustor basket 2a. Then, finally, a swirling flow is supplied by the pilot swirl 25 and the main swirls 26 of the combustor 2 so as to be used for diffusion combustion by the pilot nozzle 21 and used for premixed combustion by the main nozzles 22.


However, the compressed air being supplied to the combustor 2 in a manner as described hereinabove becomes unstable in flowing inside the combustor 2. To be specifically, a vortex flow due to flow separation is generated on the inner wall of the combustor basket 2a serving as the outside of the main nozzles 22, and a vortex flow due to turning of the flow of the compressed air is generated on the base of the pilot nozzle 21, respectively. In addition, a vortex flow flowing along the pilot nozzle 21, a vortex flow flowing along the inner wall of the combustor basket 2a toward the outlet of the combustor basket 2a and the like are also generated. Due to these vortex flows, the flow of the compressed air inside the combustor basket 2 becomes unstable.


As a result, pressure distribution of the compressed air at the tips of the pilot nozzle 21 and the main nozzles 22 becomes imbalanced, resulting in unstable combustion thereof. In consequence, not only the rate of occurrence of NOx becomes high but also durability becomes deteriorated due to generation of combustion oscillations. For these disadvantages, the present applicant proposes a combustor in which disturbance and drift of the compressed air flow are restrained by installing a flow ring having a semicircular cross-sectional configuration and a ring shape to a position where the supports 27 are connected to the combustor basket 2a. (See the Japanese Patent Application Laid-Open No. 2000-346361.)


In the Japanese Patent Application Laid-Open No. 2000-346361, it is disclosed that by installing a punched metal plate between the outside of the pilot nozzle 21 and the inside of the main nozzles 22 so as to provide resistance, uniformity of the compressed air flow flowing inside the combustor basket 2a is maintained. In addition, it is disclosed that by installing guide vanes nearer to the base side of the pilot nozzle 21 than a flow ring, the uniformity of the flow is maintained when the compressed air turns 180 degrees.


Being constructed as described hereinabove, it is possible to relatively stabilize the compressed air flow which flows, making 180 degrees turn inside the combustor basket 2a. However, because a difference occurs between the inside compressed air flow and the outside compressed air flow in turning, the uniformity thereof is not sufficient. As a result, it is necessary to compensate the uniformity by lengthening the distance from the position of the flow ring to the tip of the pilot nozzle 21 and the distance from the position of the flow ring to the main nozzles 22, respectively.


Therefore, not only the combustor 2 needs to be enlarged but also supports 30 are necessary to fix the tips of the main nozzles 22, but the supports 30 disturb the flow of the compressed air. To be specific, the supports 30 fixing the tips of the main nozzles 22 contribute to deterioration of uniformity of the flow of the compressed air inside the combustor 2. In addition, not only because the supports 30 give an adverse effect to uniformity of the compressed air flow inside the combustor 2 but also because the bottom portion (back surface side) of the external cylinder 2c is not constructed for purpose of turning at the position where the compressed air turns 180 degrees, instability of the flow in the external cylinder 2c is not eliminated. Moreover, there arises a problem of a significant pressure drop because resistance based on bending of the flow ring and guide vanes is significant.


SUMMARY OF THE INVENTION

It is an object of the present invention to provide a combustor which can fix a combustor basket to the inside of an external cylinder by pressing the combustor basket in a radial pattern by supporting portions which support a punched metal plate covering an inlet region of a space between the external cylinder and the combustor basket.


A combustor in accordance with the present invention comprises:


a pilot nozzle being provided to the center of axis of the combustor and performing diffusion combustion:


main nozzles being provided circumferentially, equally spaced, on the side of the outside-circumference of the pilot nozzle and performing premixed combustion;


a combustor basket covering the sides of the outside circumferences of the pilot nozzle and the main nozzles;


an external cylinder being provided to the side of the outside circumference of the combustor basket and serving as a passageway of compressed air between inside wall thereof and outside wall of the combustor basket;


a punched metal plate being a perforated plate in a ring shape which covers the entrance on the side of the tips of the main nozzles in a space between the combustor basket and the external cylinder; and


ribs comprising a supporting portion, which supports the punched metal plate to the external cylinder, and a plate-shaped portion, which is connected to the supporting portion and installed toward the central axis of the combustor basket so as to be in close contact with the combustor basket, and being installed in the circumferential direction of the external cylinder, equally spaced.


In accordance with the present invention, by having ribs being connected to an external cylinder installed to the external cylinder circumferentially, equally spaced, the combustor basket can be pressed circumferentially from equally-spaced positions. As a result, the combustor basket can be installed so as to be fixed to the inside of the external cylinder. In addition, by having ribs provided with supporting portions, the punched metal plate can be supported together. Because the main nozzles are supported by the combustor basket, supports supporting the main nozzles become unnecessary, thereby decreasing resistance against the air flow toward the tips of the main nozzles.




DESCRIPTION OF THE DRAWINGS


FIG. 1 is a cross-sectional view showing a construction of an interior of a combustor basket in a combustor in accordance with a first embodiment of the prevent invention.



FIG. 2 is a cross-sectional view showing a construction of a cylinder of a combustor of FIG. 1.



FIG. 3 is a cross-sectional view showing a construction of a back surface wall of a combustor of FIG. 1.



FIG. 4 is a cross-sectional view showing a relation between turning vanes and main nozzles of a combustor of FIG. 1.



FIG. 5A is a front view seen from the upstream side of an external cylinder in a combustor of FIG. 1.



FIG. 5B is a cross-sectional view showing a periphery of a rib in a combustor of FIG. 1.



FIG. 6 is a perspective view showing a schematic construction of a part of a cylinder in a combustor in accordance with a second embodiment of the present invention.



FIG. 7 is a front view showing an upstream-side tip of a cylinder shown in FIG. 6, being viewed from the base of the main nozzle.



FIG. 8A is a diagram showing a construction of an outside wall of a cylinder of FIG. 6.



FIG. 8B is diagram showing a construction of an inside wall of a cylinder of FIG. 6.



FIG. 9 is a diagram showing a flow of compressed air in a notch in a cylinder of FIG. 6.



FIG. 10 is a cross-sectional view showing a construction of a combustor when a cylinder and a combustor basket are united.



FIG. 11 is a diagram showing another example of a construction of a rib.



FIG. 12 is a schematic cross-sectional view showing a construction of a general gas turbine.



FIG. 13 is an enlarged cross-sectional view of a combustor of a conventional gas turbine.



FIG. 14 is an enlarged cross-sectional view of a combustor basket of a combustor of a conventional gas turbine.




DESCRIPTION OF THE PREFERRED EMBODIMENTS
First Embodiment

Referring now to the drawings, a first embodiment of the present invention will be described hereinafter. FIG. 1 is a schematic cross-sectional view showing a construction of an interior of a combustor basket in a combustor in accordance with the prevent embodiment. In the construction of a combustor of FIG. 1, same symbols will be supplied to portions that are used for same purpose as combustors shown in FIG. 13 and FIG. 14, and detailed explanation thereof will be omitted. In addition, the side of a transition piece inside a combustor basket will be referred as “downstream side,” while the side of a transition piece in a space between an external cylinder and a combustor basket will be referred as “upstream side.”


As shown in FIG. 1, same as a combustor of FIG. 13, a combustor in accordance with the present embodiment comprises a pilot nozzle 21 being provided to a center thereof and performing diffusion combustion; a plurality of main nozzles 22 being provided circumferentially to the outside circumference of the pilot nozzle 21, equally spaced, and performing premixed combustion; a pilot cone being provided so as to cover the tip of the pilot nozzle 21; main burners 24 being provided so as to cover the tips of the main nozzles 22; a pilot swirl 25 being installed between the outside wall of the pilot nozzle 21 and the inside wall of the pilot cone 23; and main swirls 26 being provided between the outside walls of the main nozzles 22 and the inside walls of the main burners 24.


Then, a combustor shown in FIG. 1 comprises a combustor basket 2a being formed so as to cover the pilot nozzle 21 and the main nozzles 22; a transition piece 2b being engaged to the combustor basket 2a and introducing combustion gas from the pilot nozzle 21 and the main nozzles 22 to the gas turbine 3 (See FIG. 12.); a external cylinder 2c covering the outside circumference of the combustor basket 2a and at the same time being in contact with the inside wall of the casing 4; and a back surface wall 2d closing the downstream of the external cylinder 2c. In addition, the combustor, being different from a conventional combustor, is provided with a punched metal plate 51 being a perforated plate in a ring shape, covering the upstream side of the external cylinder 2c in a space between the combustor basket 2a and the external cylinder 2c; a rib 52 supporting the punched metal plate 51 and being connected to the combustor basket 2a and the external cylinder 2c; a cylinder 53 being connected to the upstream side of the combustor basket 2a and having a bell-mouth construction being provided with a bulb formed toward the external cylinder 2c; and turning vanes 54 in a ring shape being installed in the vicinity of the upstream-side end of the cylinder 53 so as to cover the spaces between the main nozzles 22.


In a combustor being constructed as described hereinabove, a plurality of main burners 24 are connected circumferentially to the downstream-side of the inside wall of the combustor basket 2a, being equally spaced, and a pilot cone 23 is installed to the center of the combustor basket 2a so as to have a close contact with each of the main burners 24. As a result, the pilot cone 23 and the main burners 24 are fixed to the downstream side of the combustor basket 2a. On the contrary, a cylinder 53 is connected to the upstream-side tip of the combustor basket 2a in a manner that an inside wall of the cylinder 53 is formed to be a same wall surface as the inside wall of the combustor basket 2a at the upstream-side end of the combustor basket 2a, thereby fixing a cylinder 53.


Then, a punched metal 51 is connected to the outside wall of the combustor basket 2a and the inside wall of the external cylinder 2c so as to cover the upstream-side of the external cylinder 2c, and a plurality of ribs 52 fixing the punched metal 51 are provided circumferentially, equally spaced. By having the ribs 52 connected to the outside wall of the combustor basket 2a and the inside wall of the external cylinder 2c, the combustor basket 2a is fixed to the inside of the external cylinder 2c. In addition, a pilot nozzle 21 is inserted into the center of the back surface wall 2d and main nozzles 22 are inserted circumferentially around the pilot nozzle 21, equally spaced. Then, by having a turning vane 54 connected to two adjacent main nozzles 22, turning vanes 54 are installed circumferentially to the spaces between the main nozzles 22. The back surface wall 2d where the pilot nozzle 21 and the main nozzles 22 are inserted is installed from the upstream-side of the external cylinder 2c.


By having the back surface wall 2d engaged to the external cylinder 2c and fixed as described hereinabove, the upstream sides of the pilot nozzle 21 and the main nozzles 22 are supported by the back surface wall 2d so that the pilot nozzle 21 and the main nozzles 22 are inserted into the inside of the combustor basket 2a, respectively. In addition, in order that the outside wall at the downstream-side tip of the pilot nozzle 21 is in close contact with the inside wall of the pilot swirl 25 of the pilot cone 23, the pilot nozzle 21 is inserted into the pilot swirl 25, which supports the downstream side of the pilot nozzle 21. In the same manner, in order that the outside wall at the downstream-side tips of the main nozzles 22 are in close contact with the inside walls of the main swirls 26, the main nozzles 22 are inserted into the main swirls 26, which support the downstream-side tips of the main nozzles 22.


(Construction of the Back Surface Wall, Cylinder and Turning Vanes)


Now, the construction of the back surface walls 2d, the cylinders 53 and turning vanes 54 of the combustor in FIG. 1 will be described hereafter. As described above, the construction is a bell-mouth construction that the outside-wall side of the cylinder 53 is upcurved toward the external cylinder 2c. As shown in a cross-sectional view of FIG. 2, the cylinder 53 having the bell-mouth construction is provided with a tapered portion 53a where the distance to the inside wall of the external cylinder 2c from the upstream-side tip thereof to the downstream-side thereof becomes shorter; a flat portion 53b where the distance to the inside wall of the external cylinder 2c on the downstream side of the tapered portion 53a is uniform; and a semi-circular portion 53c where the downstream-side end has a cross section in approximately semicircle configuration. In addition, the portion where inclination on the upstream side of the tapered portion 53a starts and the portion where the tapered portion 53a and the flat portion 53b are connected to each other are shaped so as to be smoothly rounded.


By having the cylinder 53 constructed as described hereinabove, the outside wall of the cylinder 53 is constructed so as to come close to the inside wall of the external cylinder 2c toward the downstream side. Therefore, a cross-sectional area of a passageway of compressed air being formed between the inside wall of the external cylinder 2c and the outside wall of the cylinder 53 is gently narrowed. As a result, the compressed air flow is throttled and uniformity in the circumferential direction of a combustor against the downstream-side flow of the cylinder 53 is achieved. In addition, by having the tapered portion 53a of the cylinder 53 formed so as to be gently upcurved like a bulb, the compressed air flowing through the punched metal plate 51 can be prevented from separation.


Additionally, as shown in the cross-sectional view in FIG. 3, the back surface wall 2d is constructed in such a manner as the side of the outside circumference of the cylinder 53 being a curved surface serves as an arc-shaped portion 2x, and the side of the inside circumference of the cylinder 53 being flat serves as a flat portion 2y, thereby making the inside wall surface thereof be a concave surface having a mortar shape. Wherein, the curvature of the arc-shaped portion 2x corresponds to the curvature of the outside circumference of the semicircle-shaped portion 53c of the cylinder 53, and the distance between the inside wall surface of the arc-shaped portion 2x of the back surface wall 2d and the outside wall surface of the semicircle-shaped portion 53c of the cylinder 53 becomes constant. In addition, the connected portion of the arc-shaped portion 2x to the flat portion 2y in the back surface wall 2d is formed on an axial extension line from the downstream-side end of the semicircle-shaped portion 53c of the cylinder 53.


By having the back surface wall 2d constructed as mentioned hereinabove, it is possible to make the cross-sectional area being made by the inside wall surface of the arc-shaped portion 2x of the back surface wall 2d and the outside wall surface of the semicircle-shaped portion 53c of the cylinder 53 be equal to a cross-sectional area being formed by the inside wall of the external cylinder 2c and the flat portion 53b of the cylinder 53, thereby being constant. By this, the compressed air flowing between the outside wall of the cylinder 53 and the inside wall of the external cylinder 2c can be introduced to the inside of the cylinder 53 uniformly, and the compressed air flow can be made to turn 180 degrees stably on the back surface wall 2d. In addition, the distance “h” between the inside wall of the arc-shaped portion 2x of the back surface wall 2d and the outside wall of the semicircle-shaped portion 53c of the cylinder 53 (See FIG. 3.) and the radius “r” of the semicircle-shaped portion 53c of the cylinder 53 (See FIG. 3.) are specified in a manner that pressure loss coefficient “ζ” becomes small in the relation of the pressure loss coefficient “ζ” versus the inside diameter “D” of the combustor basket 2a and the cylinder 53 (See FIG. 1.).


Additionally, a turning vane 54 is made of a piece of plate which is bent from the outside circumference of the main nozzle 22 to the position of the axis of the main nozzle 22, in case of being viewed from the more upstream side than the cylinder 53 toward the downstream side. Then the turning vane 54 is formed so as to have the curvature thereof be equivalent to the curvature of the inside wall of the semicircle-shaped portion 53c of the cylinder 53. Moreover, as shown in FIG. 4, a turning vane 54 is an arc-shaped plate connecting the side surfaces of the main nozzles 22. By such turning vanes 54 constructed as described hereinabove, the compressed air being made to turn 180 degrees on the back surface wall 2d is introduced to the pilot cone 23 and the main burners 24. Then, by having the turning vanes 54 serve as single vanes, pressure resistance can be restrained and the compressed air can flow in a uniform manner.


By having each of the back surface wall 2d, the cylinder 53 and the turning vanes 54 constructed as described hereinabove, the compressed air flowing into a space between the external cylinder 2c and the cylinder 53 is made uniform at the tapered portion 53a of the cylinder 53 and subsequently, is made to turn 180 degrees at the back surface wall 2d, maintaining uniform flow. Then, the compressed air being made to make a turn at the back surface wall 2d, flowing uniformly, is uniformized by the turning vanes 54 and then introduced to the pilot cone 23 and the main burners 24. In addition, because it is possible to maintain the compressed air flow being introduced to the pilot cone 23 and the main burners 24 to be uniform, the distances from the upstream-side end of the cylinder 53 to the pilot cone 23 and the main burners 24 can be shortened, compared with a conventional construction.


(Construction of a Punched Metal Plate and Ribs)


Construction of a punched metal plate 51 and ribs 52 of a combustor shown in FIG. 1 will be described hereinafter. As shown in the front view of an external cylinder 2c seen from the downstream side thereof in FIG. 5A, a punched metal plate 51 is constructed so as to be in a ring shape covering the entrance of the passageway of the compressed air between the outside wall of the combustor basket 2a and the inside wall of the external cylinder 2c and at the same time is constructed to be a perforated plate having a plurality of holes. Then, as shown in the front view of FIG. 5A, ribs 52 are provided in a radial pattern against the axis of a combustor in a manner that both ends of a rib 52 are in contact with the outside wall of the combustor basket 2a and the inside wall of the external cylinder 2c. Additionally, ribs 52 are provided in a plural number, and the plurality of ribs 52 are arranged so as to be equally spaced in the circumferential direction of a combustor and connected to the external cylinder 2c, thereby supporting the combustor basket 2a.


Moreover, as shown in a cross-sectional view of FIG. 5B, a rib 52 is provided with a fixing member 52a being connected to the outside-circumference side of a punched metal plate 51 and a plate member 52b being formed so as to protrude from the fixing member 52a to the combustor basket 2a, being in contact with the combustor basket 2a. Then, the fixing member 52a is constructed so as to be formed in a columnar configuration having a semicircle-shaped cross section and to be provided with a through screw hole inside thereof where a bolt 52c is inserted. The upstream side of the fixing member 52a is provided with a concave portion 52d where the head portion of the bolt 52c is embedded, and after the bolt 52c is inserted therein, the concave portion 52d is filled with a metal part, thereby forming a flat end surface.


In addition, as shown in a cross-sectional view of FIG. 5B, the external cylinder 2c has the inside wall thereof equipped with a rib-connecting member 52e which is connected to the fixing member 52a of a rib 52 and is formed so as to have the axial direction be approximately columnar. The rib-connecting member 52e is provided with a screw hole where a bolt 52c is inserted. As a result, a bolt 52c going through the screw hole of the fixing member 52a is inserted into the screw hole of the rib-connecting member 52e, which fixes the fixing member 52a to the rib-connecting member 52e, thereby, in consequence, fixing the punched metal plate 51 and the rib 52 to the external cylinder 2c. Moreover, by having the downstream-side end surface of the rib-connecting member 52e formed to be approximately semicircle curved surface, the compressed air can be prevented from being supplied with disturbance as much as possible.


By installing the ribs 52 fixed to the external cylinder 2c in a radial pattern as described hereinabove, the combustor basket 2a is pressed toward the center thereof by the ribs 52 so as to be fixed by the ribs 52. As a result, the downstream-side tips of the main nozzles 22 can be supported by the main swirls 26 in the main burners 24 being connected to the combustor basket 2a. Therefore, the aforementioned construction made by the back surface wall 2d, the cylinder 53 and the turning vanes 54, the compressed air flowing in the combustor basket 2a can be made uniform, which can shorten the axial lengths of the pilot nozzle 21 and the main nozzles 22. Consequently, supports being connected to the pilot nozzle 21 for supporting the downstream side of the main nozzles 22 will become unnecessary. Furthermore, by having the compressed air made uniform, resistance due to the punched metal plate 51 can be decreased, compared with the conventional construction, thereby restraining the pressure loss at the punched metal plate 51.


Second Embodiment

A second embodiment of the present invention will be described hereinafter by referring to the drawings. The combustor in accordance with the present embodiment has a cylinder being provided with the side of the bases of the pilot nozzle 21 and the main nozzles 22 constructed in a different manner from the first embodiment. However, the remaining parts of the construction of the combustor with the present embodiment has a same construction as the combustor in accordance with the first embodiment. Therefore, different parts of construction of the cylinder from the first embodiment will be explained hereinafter. FIG. 6 is a perspective view showing an approximate construction of a part of a cylinder of the combustor with the present embodiment. FIG. 7 is a front view of the upstream-side end of the cylinder viewed from the side of the bases of the pilot nozzle 21 and the main nozzles 22.


Same as the cylinder 53 provided to the combustor with the first embodiment (See FIG. 2.), a cylinder 53x being provided to the combustor in accordance with the present embodiment comprises a tapered portion 53a being connected to the combustor basket 2a, a flat portion 53b where the distance to the external cylinder 2c is constant and a semi-circular portion 53c which is provided with a curved surface having a constant distance to the outside wall 2d. Additionally, the cylinder 53x has a notch 60 provided to the tip portion of a semi-circular portion 53c as shown in FIG. 6.


As shown in FIG. 7, the notch 60 is provided to a position on a radial line connecting the intermediate position of the adjacent main nozzles 22 (the position where a turning vane 54 is installed) to the center of the axis of the combustor and has the semi-circular portion 53c formed so as to be a groove where the surface of the notch 60 sinks more downward than the other surfaces than the notch 60. In addition, as shown in FIG. 8A, the notch 60 spreads out from the side of the combustor basket 2a to the end confronting the back wall surface 2d on the outside wall of the semi-circular portion 53c and also, as shown in FIG. 8B, spreads out from the side of the combustor basket 2a toward the end confronting the back surface wall 2d on the inside wall of the semi-circular portion 53c.


By having the notch 60 formed as described hereinabove, the compressed air flow is formed along the notch 60. Therefore, as shown in FIG. 9, on the inside-wall side of the cylinder 2a, vortices F1a and F1b of the compressed air flow are formed inside the notch 60 symmetrically against the central axis F0 connecting the center position of the notch 60 to the adjacent positions of two main burners 24. Vortices F2a and F2b are formed outside the vortices F1a and F1b of the compressed air flow symmetrically against the center axis F0 in the center of the notch 60. The vortices F2a and F2b are larger than the vortices F1a and F1b and additionally, is formed along the outside of the notch 60, facing toward the main burners 24. In addition, on both sides of the vortices F2a and F2b, compressed air flow F3a and F3b are formed so as to be along the vortices F2a and F2b, flowing toward the main burners 24 that are located on both sides of the notch 60.


As observed from the compressed air flow shown in FIG. 9, by having a notch 60 formed, vortices F1a and F1b can be formed in the compressed air flow, having the absolute locations thereof at the different levels of the notch 60. Then, by the vortices F1a and F1b of the compressed air flow, the direction of the compressed air flow toward the main burners 24 can be determined. In consequence, the compressed air flow being supplied to the main burners 24 can be made uniform, thereby restraining disturbance to the compressed air flow flowing into the main burners 24.


Moreover, because pressure of the compressed air being supplied to the interior of a combustor is a high pressure, for example such as 20 Pa, the vortices F1a, F1b, F2a and F2b in the compressed air flow shown in FIG. 9 can be made small. Consequently, the vortices F1a, F1b, F2a and F2b serving as resistance and disturbance to the flow in a case of a low pressure, such as atmospheric pressure, can be made small, which not only restrains resistance and disturbance to the flow but also functions in order to determine the direction of the compressed air flow, thus giving a more favorable effect. Therefore, the compressed air flowing along the inside wall of the cylinder 53 can be made to flow to the main burners 24 more uniformly.


When a notch 60 is not provided as the first embodiment, the position of a vortex generating in the compressed air flowing to the inside of the cylinder 53 moves in the circumferential direction of the cylinder 53, so that the compressed air flow flowing into the main burners 24 are made non-uniform. On the contrary, in accordance with the present embodiment, the notch 60 is provided to the intermediate position between the main burners 24 that are adjacent to each other in the circumferential direction of the cylinder 53, so that the locations of the vortices F1a, F1b, F2a and F2b can be fixed by the notch 60. As a result, less adverse effects are given to the compressed air flow flowing into the main burners 24, thereby maintaining uniform flow as much as possible.


In the present embodiment, the notch 60 is constructed to be such as shown in FIGS. 6 through 8B. However, the notch 60 may have another configuration as long as the slot having a different level on the upstream-side end of the cylinder 53x (the side of the base of the main nozzle 22) is formed at an optimum position for the main nozzle 22. In addition, the notch 60 being constructed so as to have another configuration as described above is acceptable as long as the vortices F1a and F1b are formed at fixed positions in the compressed air flow flowing to the main burners 24 as shown in FIG. 9.


Moreover, in the first and the second embodiments, the cylinders 53 and 53x are different components from the combustor basket 2a. However, as shown in FIG. 10, the upstream-side end of the combustor basket 2a may have a bell-mouth construction as the cylinders 53 and 53x. Wherein, in the case of the second embodiment, a notch 60 being provided to the cylinder 53x will be located at a position confronting each of the main nozzles 22.


Furthermore, in the first and the second embodiments, as shown in FIG. 11, the inside wall surface of an external cylinder 2c may be positioned at the same location of the end of the fixing member 52a on the side of the combustor basket 2a, instead of providing the rib-connecting member 52e. Then, by providing a screw hole on an end surface on the side of the compressed air inlet of the external cylinder 2c, a bolt 52c is inserted, being through the screw hole of the fixing member 52a, so as to have the fixing member 52a fixed to the external cylinder 2c, thereby fixing the punched metal 51 and the ribs 52 to the external cylinder 2c.

Claims
  • 1. A combustor comprising: a pilot nozzle being provided center of axis of a combustor and performing diffusion combustion; main nozzles being provided circumferentially, equally spaced on a side of an outside circumference of the pilot nozzle and performing premixed combustion; a combustor basket covering sides of outside circumferences of the pilot nozzle and the main nozzles; an external cylinder being provided to a side of outside circumference of the combustor basket and serving as a passageway of compressed air between inside wall thereof and outside wall of the combustor basket; a punched metal plate being a perforated plate in a ring shape which covers an entrance on a side of tips of the main nozzles in a space between the combustor basket and the external cylinder; and ribs comprising a supporting portion, which supports the punched metal plate to the external cylinder, and a plate-shaped portion, which is connected to a supporting portion and installed toward a central axis of the combustor basket so as to be in close contact with the combustor basket, and being installed in a circumferential direction of the external cylinder, equally spaced.
  • 2. A combustor as described in claim 1:wherein, the external cylinder has the inside wall thereof provided with a connecting portion which is connected to the supporting portion; and the ribs and the punched metal plate are fixed to the external cylinder by having the supporting portions of the ribs installed to a side of outside circumference of the punched metal plate and having the supporting portion connected and fixed to the connecting portion of the external cylinder.
  • 3. A combustor as described in claim 2:wherein, the supporting portion and the connecting portion are provided with a screw hole, respectively; and one bolt is inserted into each of screw holes of the supporting portion and the connection portion, respectively, thereby connecting and fixing the supporting portion to the connecting portion of the external cylinder.
  • 4. A combustor as described in claim 2:wherein, the supporting portion and the connecting portion make a columnar structure having side surfaces thereof on a side of the combustor basket shaped in a curved surface.
  • 5. A combustor as described in claim 4:wherein, the end portion of the connecting portion on a side of bases of the main burners is shaped to have an approximately half semisphere face.