This application claims priority to German Patent Application DE102014204482.0 filed Mar. 11, 2014, the entirety of which is incorporated by reference herein.
This invention relates to a combustion chamber of a gas turbine with an outer combustion chamber wall and with tiles attached to the inner side of the outer combustion chamber wall.
It is known from the state of the art to introduce air into the combustion chamber interior radially from the outside through admixing holes or mixing air holes. Individual and discrete admixing holes, which are suitably distributed over the circumference of the combustion chamber, are always used here. The admixing holes are here usually arranged in one or several rows on the circumference of the combustion chamber.
The supply of mixing air is used to optimize combustion in the combustion chamber. In particular, a best possible blocking and mixing of the combustion gases with the admixing air should be achieved in order to control and minimize the NOx emissions.
The designs known from the state of the art have the disadvantage that maximum blocking and optimum mixing of the admixing air with the combustion gases is not possible due to the discrete and individual arrangement of the admixing holes. Hence the maximum possible reduction of NOx emissions is not possible. It has proven to be a further disadvantage of the known designs that an arbitrary arrangement of the individual, discrete admixing holes relative to one another and in particular an arbitrary spacing of the admixing holes relative to one another are not possible due to the mechanical structure of the combustion chamber outer wall and the tile.
The object underlying the present invention is to provide a combustion chamber of a gas turbine, which while being simply designed and easily and cost-effectively producible avoids the disadvantages of the state of the art and enables an optimized supply of mixing air.
It is a particular object of the present invention to provide solution to the above problematics by the combination of the features of Claim 1. Further advantageous embodiments of the present invention become apparent from the sub-claims.
In accordance with the invention, it is thus provided that the combustion chamber has in a center area, relative to the flow direction, a slot extending around the circumference of the combustion chamber wall, said slot dividing the outer combustion chamber wall and the tiles, and through which mixing air can be supplied.
This results in the crucial advantage in accordance with the invention that the NOx emissions can be reduced to the maximum possible extent by the optimized supply of mixing air. It is particularly favourable here that the circumferential slot can be provided with the same effective through-flow surface for mixing in the air as the admixing holes known from the state of the art.
In a particularly favourable embodiment of the invention, it is provided that the combustion chamber is divided by the slot into a front part and a rear part. The expression “front and rear part” always relates here to the direction of flow through the combustion chamber.
The slot provided in accordance with the invention can be designed straight over the circumference, i.e. with a constant width. It is also possible to design it wavy, either with the same width or with variable width. This permits adaptation to the arrangement of the individual burners distributed over the circumference of the annular combustion chamber. In a further design variant, the slot can be provided with a width that changes around the circumference, for example by bulges and constrictions in the circumferential direction.
Since the combustion chamber is divided into a front part and a rear part in accordance with the present invention, it is particularly favourable when the front part and the rear part of the combustion chamber are mounted separately in each case. Mounting is achieved preferably by means of combustion chamber arms. The latter have in a preferred development of the invention through-flow openings in order to optimize the airflow. The cross-sections of the through-flow openings are here preferably larger than the overall cross-section of the slot.
It is understood that the tiles can be mounted on the outer combustion chamber wall in many different ways. It is possible to use stud bolts for this purpose, as is shown by the state of the art. It is however also possible to manufacture the front and rear parts of the combustion chamber wall in one piece in each case by means of additive methods (laser deposition welding method or similar). In any event, it is ensured that a cooling air interspace exists between the tile and the outer combustion chamber wall, in order to provide impingement cooling and effusion cooling in the known manner. The embodiment in accordance with the invention can also be used for combustion chambers of the single-wall design (without tile).
In a particularly favourable development of the invention, it is provided that the front part and the rear part of the combustion chamber wall can change their distance in the event of thermal expansion and thermal contraction. It is thus possible to vary the width of the slot, depending on the temperature of the combustion chamber. Accordingly, the width of the circumferential slot can, due to a greater spacing of the side walls of the slot, be greater in the cold state than in the hot state. Hence the supply of admixing air is increased in the cold state of the combustion chamber, at the same time with reduced cooling air for the combustion chamber walls. In the hot state this is reversed, and the circumferential slot will have a lower width. This permits a marked reduction of the NOx emissions for colder operating points and operating states of the combustion chamber.
The present invention is described in the following in light of the accompanying drawing showing an exemplary embodiment. In the drawing,
The gas-turbine engine 110 in accordance with
The intermediate-pressure compressor 113 and the high-pressure compressor 114 each include several stages, of which each has an arrangement extending in the circumferential direction of fixed and stationary guide vanes 120, generally referred to as stator vanes and projecting radially inwards from the engine casing 121 in an annular flow duct through the compressors 113, 114. The compressors furthermore have an arrangement of compressor rotor blades 122 which project radially outwards from a rotatable drum or disk 125 linked to hubs 126 of the high-pressure turbine 116 or the intermediate-pressure turbine 117, respectively.
The turbine sections 116, 117, 118 have similar stages, including an arrangement of fixed stator vanes 123 projecting radially inwards from the casing 121 into the annular flow duct through the turbines 116, 117, 118, and a subsequent arrangement of turbine blades 124 projecting outwards from a rotatable hub 126. The compressor drum or compressor disk 125 and the blades 122 arranged thereon, as well as the turbine rotor hub 126 and the turbine rotor blades 124 arranged thereon rotate about the engine center axis 101 during operation.
In the front area the combustion chamber has in a known manner a head plate 6. Several individual and discrete admixing holes 5, through which mixing air is introduced, are provided around the circumference of the combustion chamber in the combustion chamber outer wall 1 and the tiles 9.
Mounting of the combustion chamber is accomplished by means of an outer combustion chamber arm and an inner combustion chamber arm 11 as well as an outer combustion chamber flange 12 and an inner combustion chamber flange 13. The reference numeral 14 identifies an outer combustion chamber casing, while an inner combustion chamber casing is identified with the reference numeral 15. At the outlet of the combustion chamber an outer turbine casing 16 and an inner turbine casing 17 are shown schematically.
The combustion chamber shown in
The design variant of
In the exemplary embodiment shown in
The invention thus permits an ideal blocking/mixing of the admixing air 19 with the combustion gases in the combustion chamber volume 23. The admixing air is supplied in optimum manner through the circumferential slot 18, which is provided in the combustion chamber wall 1 and the tile 9, so that the NOx emissions are minimized. The circumferential slot has preferably the same effective flow cross-section same through-flow surface as comparable admixing holes 5 in accordance with the state of the art (see
As described, the combustion chamber in accordance with the invention is split into two parts. A suspension concept is therefore described in accordance with the invention in which the parts of the combustion chamber are fastened to the inner and outer combustion chamber casing and to the turbine casing in a suitable manner. This is achieved, as explained, by additional combustion chamber arms 12. The latter can be fastened in any way to the combustion chamber or be connected thereto, for example by a one-piece design, by welding, by bolting or in similar manner.
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German Search Report dated Mar. 31, 2014 for counterpart app. No. 10 2014 204 482.0. |
European Search Report dated Aug. 21, 2015 for related European Patent Application No. 15158442.2. |
European Search Report dated Jan. 15, 2016 for related European Patent Application No. 15158442.2. |
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20150260403 A1 | Sep 2015 | US |