JPH1183016A - Three-dimensional swirler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent occurrence of flame holding and a burning damage by giving a torsion from a hub side to a tip side of a swirler vane, and increasing a mounting angle of the tip side to a centerline of a fuel nozzle to larger than that of the hub side, thereby accelerating mixture of fuel with the air. SOLUTION: A mounting angle α of a swirler vane 101a at a hub side is set to 25 deg. to a central axis C of a main fuel nozzle 102, and a mounting angle βat a tip side similarly becomes 45 deg. to the axis C of the nozzle 102. Accordingly, a difference between the angle α=25 deg. at the hub side and the angle β=45 deg. at the tip side is regulated as the vane 101a is twisted from the hub side toward the tip side. Thus, fuel F is supplied from a nozzle hole 105 opened at the nozzle 102 during a vortex flow of the air A to form mixed gas. Even if a back fire occurs, flame holding does not occur and hence there is no anxiety of a burning damage.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to the swirler relates a premixed gas formed in the premixed flame type low NO _X combustor of a gas turbine.

[0002]

2. Description of the Related Art An outline of a conventional combustor of this type will be described with reference to FIGS. Figure 4 is a general block diagram illustrating an example of a conventional premixed flame type low NO _X combustor, in FIG. 5 shows a cross-sectional view of a main fuel nozzle therein.

A so-called fuel supply nozzle for supplying fuel, air, or a mixture thereof to a combustor includes a pilot fuel nozzle 204 that forms a flame portion in the center of a cross section of the combustor,
A plurality of main fuel nozzles 202 and the like are arranged around the pilot fuel nozzle 204 so as to have a cylindrical outer cylinder 206 and form a premixed gas of fuel and air.

[0004] Each of these main fuel nozzles 20
A main swirler 201 installed around the main fuel nozzle 202 and extending to a position reaching the outer cylinder 206 is disposed at an upstream portion of the main swirler 2.

[0005] A plurality of nozzle holes 205 are formed in the circumferential direction of the main fuel nozzle 202 on the main body wall surface of the main fuel nozzle 202 and downstream of the main swirler 201.

In a conventional combustor having such a configuration, combustion air is supplied from a plurality of main swirlers 201 and a pilot swirler 203 provided only in the center, and fuel is supplied from the plurality of main fuel nozzles. 202 and the pilot fuel nozzle 204.

In the main fuel nozzle 202, as shown in FIG. 5, fuel is jetted from a nozzle hole 205 formed in the wall of the nozzle body, and the fuel is injected into the main swirler 20.
The air mixes with the air flowing through the outer periphery of the nozzle through 1 to become a premixed gas.

At this time, the swirling angle of the air is given by the main swirler 201, and the angle is governed by the mounting angle of the swirler vane to the hub with respect to the center line of the fuel nozzle.

Therefore, in the prior art, the case where the mounting angle of the swirler vane is changed and adjusted so as to change the turning angle can be seen, but as the one which has been implemented for this purpose, the hub portion is thus used. The angle of attachment to the hub was changed and adjusted, and the angle of the hub was maintained at the tip, while maintaining the angle of the hub.

FIG. 2 and FIG. 3 show concrete examples in which the mounting angle of the swirler vane is changed as described above.

That is, as one example, FIG.
(A) shows the arrangement relationship of the swirler vanes with respect to the fuel nozzles, and (b) shows the developed view of the arrangement of the swirler vanes. As shown in FIG.
° and some.

As another example, FIG. 3A shows an arrangement relationship of swirler vanes with respect to a fuel nozzle, and FIG.
As shown in a developed view of the swirler vane, the swirler vane 20 with respect to the center axis C of the main fuel nozzle 202 is shown in FIG.
There is a case in which the mounting angle of the hub 1b is 45 °.

2 and 3, the air A supplied from the upstream strikes the swirler vanes 201a or 201b to form an outward swirling flow, and the main fuel nozzle 202 is formed in the swirling air. The fuel F such as natural gas is supplied through a nozzle hole 205 provided in the fuel cell and a premixed air of the fuel F and the air A is formed.

[0014]

As described above, among the conventional ones in which the swivel vane 201b shown in FIG. 3 has a hub mounting angle of 45 °, the same angle is as large as 45 °. The shear flow of the air A is strong, and the mixing of the fuel F and the air A is promoted very well.

However, due to the strong shear flow, a large stagnation point P is formed at the tip of the main fuel nozzle 202 as shown by hatching in FIG. When this occurs, there is a problem that the flame is maintained at the stagnation point P and the main fuel nozzle 202 is easily burnt.

On the other hand, the swirler vane 201 shown in FIG.
In the case where the mounting angle of the hub portion a is 25 °, the angle is relatively small at 25 °, so that the shear flow of the air A is not so strong, and is indicated by hatching in FIG. Since the stagnation point P formed at the tip of the main fuel nozzle 202 is also small, even if a flashback phenomenon occurs, the flame is not held here.

However, this is obtained because the shear flow of the air A is not strong, and conversely, as shown in FIG.
The swivel vane 201b has a hub mounting angle of 45
° and was in contrast as will be apparent to those, mixing of the fuel F and air A which is a function required as a premixed combustors is poor, there is a problem that condition range provides low NO _X combustion is narrow .

The present invention solves the above-mentioned disadvantages of the prior art and promotes the mixing of fuel and air, while reducing the stagnation point formed at the tip of the main fuel nozzle to prevent flame holding and burning. It is an object of the present invention to provide a device that prevents the problem.

[0019]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and provides a swirler vane attached around a fuel nozzle with a twist from the hub side to the tip side, thereby providing a fuel nozzle center line. The mounting angle on the chip side with respect to is larger than the mounting angle on the hub side 3
It provides a dimensional swirler.

That is, in order to change the mounting angle of the swirler vane attached to the periphery of the fuel nozzle with respect to the center line of the fuel nozzle, the swirler vane is twisted from the hub side to the tip side so that the angle on the tip side is reduced. Since the angle on the hub side is larger than the angle on the hub side, even if the angle on the hub side is kept small to the extent that flame holding and subsequent burnout do not occur, the torsion from the hub side to the tip side The angle can be selected so that the fuel and air have the shear flow necessary for proper mixing, and a suitable premix can be performed.
One obtains a dimensional swirler.

The present invention also provides a three-dimensional swirler in which the mounting angle of the swirler vane on the hub side with respect to the center line of the fuel nozzle is 25 ° and the mounting angle on the tip side is 45 °.

That is, the mounting angle on the hub side with respect to the center line of the fuel nozzle is set to 25 ° where no flame holding or burning occurs, and the mounting angle on the tip side is a strong shear flow.
By setting the angle to 5 °, it is possible to obtain a three-dimensional swirler that suppresses the occurrence of flame holding and burnout problems on the hub side and secures a strong shear flow on the tip side to perform suitable premixing of fuel and air. It is.

[0023]

FIG. 1 shows an embodiment of the present invention.
It will be described based on. 1A and 1B show a three-dimensional swirler according to the present embodiment, wherein FIG. 1A is a diagram showing an arrangement relationship of swirler vanes with respect to a fuel nozzle, FIG. 1B is a development view of the swirler vanes, and FIG. 1C is a perspective view of one swirler vane. It is.

In the present embodiment, the main swirler 101
Are installed in the circumferential direction on the main fuel nozzle 102, and the main fuel nozzle 102
A fuel A is ejected from a plurality of nozzle holes 105 perforated in the circumferential direction and passes through the main swirler 101 to generate air A.
The basic concept and the basic structure of mixing the so-called premixed gas with the above are the same as those of the conventional one.

Therefore, the feature of the present embodiment is that each of the main swirlers 101 is formed in a specific shape, which is as follows.

That is, as shown in FIGS. 1B and 1C, the mounting angle α of the swirler vane 101a on the hub side is 25 ° with respect to the central axis C of the main fuel nozzle 102.
And the mounting angle β on the tip side is also 45 ° with respect to the central axis C of the main fuel nozzle 102.

Therefore, as can be understood from the description of FIG. 1 (c), the angle α = 25 ° on the hub side and the angle β =
The 45 ° difference is adjusted by twisting the swirler vanes 101a from the hub side to the chip side.

Since the present embodiment is configured as described above, the swirler vanes 101a of the main swirler 101
A, which can change the direction of the flow, is swirl vane 1
01a on the hub side, the mounting angle α is 25 °, so that the stagnation point P
This is not large even if is formed.

The swirler vane 101a is twisted from the hub side to the chip side, and
01a, the mounting angle β is 4
Since it is 5 °, a strong shear flow can be formed.

The fuel F such as natural gas is supplied through the nozzle hole 105 formed in the main fuel nozzle 102 during the swirling flow of the air A thus formed. An air-fuel mixture will be formed.

Therefore, according to the present embodiment, the swivel vane 101a has a hub-side mounting angle of 25 °, so that the stagnation point at the tip of the main fuel nozzle 102 is small. Does not occur,
There is no fear of burnout.

Further, since the swirler vane 101a has a tip-side mounting angle of 45 °, the shear flow of the air A is strong outside in the radial direction, and the mixing of the fuel F and the air A is promoted. It is obtained.

Although the present invention has been described with reference to the illustrated embodiment, the present invention is not limited to such an embodiment.
It goes without saying that various changes may be made to the specific structure within the scope of the present invention.

[0034]

As described above, according to the present invention, the swirler vanes mounted around the fuel nozzle are twisted from the hub side to the chip side, and the mounting angle of the chip side with respect to the center line of the fuel nozzle is changed. Since the three-dimensional swirler is configured to be larger than the mounting angle on the hub side, the mounting angle of the swirler vane mounted around the fuel nozzle with respect to the center line of the fuel nozzle is changed, and the swirler vane is screwed from the hub side to the tip side. With this unique configuration in which the angle on the tip side is formed larger than the angle on the hub side by giving a twist, even if the angle on the hub side is suppressed to a range where flame holding and subsequent burnout do not occur, the hub can be used. Due to the twisting from the side to the tip side, the angle on the tip side gives the shear flow necessary for proper mixing of the fuel and air. It can be chosen angle, resulting performs suitable premix prevents the life reduction due to burning or the like, and one in which it was possible to obtain a three-dimensional swirler with improved combustion efficiency.

According to the second aspect of the present invention, a three-dimensional swirler is configured such that the mounting angle of the swirler vane on the hub side with respect to the center line of the fuel nozzle is 25 ° and the mounting angle on the tip side is 45 °. So that the mounting angle of the hub side with respect to the center line of the fuel nozzle
By setting the angle to 25 ° at which no burning occurs and the mounting angle on the tip side to 45 ° at which a strong shearing flow is obtained, it is possible to suppress the occurrence of flame holding and burning problems, and to secure a strong shearing flow to secure the fuel. And a suitable premix of air
A three-dimensional swirler in which the life of the combustor is prevented from being shortened and the combustion efficiency is improved can be obtained.

[Brief description of the drawings]

1A and 1B show a three-dimensional swirler according to an embodiment of the present invention, wherein FIG. 1A is a diagram showing an arrangement relationship of swirler vanes with respect to a fuel nozzle, FIG. 1B is a developed view of the swirler vanes, and FIG. It is a perspective view of a swirler vane.

2A and 2B show an example of a conventional swirler, wherein FIG. 2A is an explanatory diagram showing an arrangement relationship of swirler vanes with respect to a fuel nozzle, and FIG.

3A and 3B show another example of a conventional swirler, wherein FIG. 3A is an explanatory diagram showing an arrangement relationship of swirler vanes with respect to a fuel nozzle, and FIG.

FIG. 4 is an overall configuration diagram showing an example of a conventional premixed flame type low NO _X combustor.

5 is a sectional view of a main fuel nozzle in the combustor shown in FIG.

[Explanation of symbols]

 101 main swirler 101a swirler vane 102 main fuel nozzle 105 nozzle hole 201 main swirler 201a swirler vane 201b swirler vane 202 main fuel nozzle 203 pilot swirler 204 pilot fuel nozzle 205 nozzle hole 206 outer cylinder A air C central axis F fuel P stagnation point

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Mako Akamatsu 2-1-1, Shinhama, Arai-cho, Takasago-shi, Hyogo Inside the Mitsubishi Heavy Industries, Ltd. Takasago Machinery Works

Claims (2)

[Claims] 1. A swirler vane mounted around a fuel nozzle is twisted from a hub side to a chip side, and a mounting angle of the chip side with respect to a center line of the fuel nozzle is made larger than a mounting angle of the hub side. Three-dimensional swirler. 2. The three-dimensional swirler according to claim 1, wherein a mounting angle of the swirler vane on the hub side with respect to a center line of the fuel nozzle is 25 °, and a mounting angle on the tip side is 45 °.