Power plants – Combustion products used as motive fluid – Combustion products generator
Reexamination Certificate
2002-06-25
2004-08-10
Koczo, Michael (Department: 3746)
Power plants
Combustion products used as motive fluid
Combustion products generator
C060S746000
Reexamination Certificate
active
06772594
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a gas turbine. More specifically, this invention relates to a gas turbine combustor which can reduce the generation of NO
x
during the operation of the gas turbine.
BACKGROUND OF THE INVENTION
A diffusion combustion system, in which fuel and the air are ejected from different nozzles and burned, has been often used for conventional gas turbine combustors. Recently, however, a premix combustion system which is more advantageous in the reduction of thermal NO
x
has been also used in place of the diffusion combustion system. The premix combustion system means that fuel and the air are premixed with each other and the mixture is ejected from the same nozzle and burned. According to this combustion system, even if fuel is rarefied, it is possible to burn the fuel in that state in any combustion regions. Therefore, it is easy to decrease the temperature of the premixed fuel, and this premix combustion system is advantageous in the reduction of NO
x
as compared with the diffusion combustion system. On the other hand, this premix combustion system has the following problem, that is, the stability of a combustion state is inferior because the air is excess with respect to the fuel and the temperature of premixed flames is low.
Although it is not shown in
FIG. 16
, eight premixed flame formation nozzles
40
which form premixed flames are provided around the diffusion flame formation cone
30
. Premixed gas is formed by mixing the air supplied from the portion between the combustor outer casing
10
and the combustor inner cylinder
20
with main fuel and then ejected from the premixed flame formation nozzles
40
. The premixed gas ejected from the premixed flame formation nozzles
40
is passed through premixed flame formation nozzle extension tubes
400
provided at the outlets of the nozzles
40
, respectively and ejected toward a combustion chamber
50
.
Although it is not clear from
FIG. 16
, eight premixed flame formation nozzles
40
which form premixed flames are provided around the diffusion flame formation cone
30
. Premixed gas is formed by mixing the air supplied from the portion between the combustor outer casing
10
and the combustor inner cylinder
20
with main fuel and then ejected from the premixed flame formation nozzles
40
. The premixed gas ejected from the premixed flame formation nozzles
40
is passed through premixed flame formation nozzle extension tubes
400
provided at the outlets of the nozzles
40
, respectively and ejected toward a combustion chamber
50
. This premixed gas is ignited by high-temperature combustion gas discharged from the diffusion flames and forms premixed flames. High-temperature, high-pressure combustion gas is discharged from the premixed flames, passed through a combustor tail pipe (not shown) and then introduced into the first stage nozzle of a turbine.
In the meantime, in the gas turbine combustor, the premixed gas is ejected linearly from the premixed flame formation nozzle extension tubes
400
toward the combustion chamber
50
, and therefore uneven fuel concentration portions exist in the premixed gas. Therefore, combustion temperature is high on the portions of the premixed gas on which the fuel concentration is high and NO
x
tends to be generated on the portions. To solve this problem and to suppress further generation of NO
x
in the premix type gas turbine combustor, it is necessary to sufficiently mix the main fuel with combustion air. From this viewpoint, Japanese Patent Application Laid-Open (JP-A) No. 7-248118 discloses a premix combustor which is provided with a premix unit consisting of a group of cylindrical members which generate turning flows of the combustion air in a premix combustor. In addition, JP-A No. 8-28871 discloses a gas turbine combustor which is provided with units which respectively turn premixed gas in a peripheral direction so that a plurality of turning flows of the premixed gas are wound around one another or twisted into one another in the combustor.
However, in each of the gas turbine combustors disclosed in the JP-A Nos. 7-248118 and 8-28871, the premixed gas is transformed to turning flows directing inward in the direction of the center of a combustion chamber and twisted, and thereby a combustion gas recycle region cannot be sufficiently formed. Therefore, these gas turbine combustors have disadvantages in that the flame holding of the premixed flames become unstable and stable combustion cannot be thereby obtained and that oscillating combustion and the like are caused. Further, since the premixed gas is concentrated in the neighborhood of the center of the combustion chamber and combusted, local high-temperature portions tend to be generated and the generation of NO
x
cannot be sufficiently suppressed.
SUMMARY OF THE INVENTION
It is an object of this invention to provide a gas turbine combustor which can reduce the generation of NO
x
during the operation of a gas turbine and which can stably combust gas.
The gas turbine combustor according to one aspect of this invention comprises a combustor inner cylinder, and a diffusion flame formation cone which is disposed inside of the combustor inner cylinder and which forms diffusion flames by mixing pilot fuel with air. The gas turbine combustor also comprises a premixed flame formation nozzle which is provided annularly between the combustor inner cylinder and the diffusion flame formation cone and which forms premixed flames out of premixed gas formed by mixing main fuel with the air. The gas turbine combustor further comprises a premixed flame formation nozzle extension section which is disposed at an outlet of the premixed flame formation nozzle and which forms a flow of premixed gas turning in a peripheral direction of the combustor inner cylinder while being directing outward in a diameter direction of the combustor inner cylinder.
The gas turbine combustor according to another aspect of this invention comprises a combustor inner cylinder, and a diffusion flame formation cone which is disposed inside of the combustor inner cylinder and which forms diffusion flames by mixing pilot fuel with air. The gas turbine combustor also comprises a premixed flame formation nozzle which is provided annularly between the combustor inner cylinder and the diffusion flame formation cone and which forms premixed flames out of premixed gas formed by mixing main fuel with the air. The gas turbine combustor further comprises a premixed flame formation nozzle extension section which is disposed at an outlet of the premixed flame formation nozzle while being inclined outward in a diameter direction of the combustor inner cylinder and in a peripheral direction of the combustor inner cylinder with respect to an axial direction of the combustor inner cylinder, and which ejects premixed gas formed at the premixed flame formation nozzle.
The gas turbine combustor according to still another aspect of this invention comprises a combustor inner cylinder, and a mixed gas formation cylinder which has a nozzle ejecting pilot fuel and a nozzle ejecting main fuel and which is disposed inside of the mixed gas formation cylinder. The gas turbine combustor also comprises a mixed gas ejection extension section which is disposed at an outlet of the mixed gas formation cylinder while being inclined outward in a diameter direction of the combustor inner cylinder and in a peripheral direction of the combustor inner cylinder with respect to an axial direction of the combustor inner cylinder, and which ejects gas formed by mixing the pilot fuel with air and premixed gas formed by mixing the main fuel with the air.
Other objects and features of this invention will become apparent from the following description with reference to the accompanying drawings.
REFERENCES:
patent: 5596873 (1997-01-01), Joshi et al.
patent: 5836164 (1998-11-01), Tsukahara et al.
patent: 6038861 (2000-03-01), Amos et al.
patent: 6068467 (2000-05-01), Mandai et al.
patent: 6082111 (2000-07-01), Stokes
patent: 1 103 767 (2001-05-01), None
patent: 7-2481
Akizuki Wataru
Minagawa Sadao
Nishida Koichi
Tanaka Katsunori
Koczo Michael
Mitsubishi Heavy Industries Ltd.
Oblon & Spivak, McClelland, Maier & Neustadt P.C.
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