EP2927594B1 - Combustion chamber of a gas turbine - Google Patents

Combustion chamber of a gas turbine Download PDF

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Publication number
EP2927594B1
EP2927594B1 EP15158442.2A EP15158442A EP2927594B1 EP 2927594 B1 EP2927594 B1 EP 2927594B1 EP 15158442 A EP15158442 A EP 15158442A EP 2927594 B1 EP2927594 B1 EP 2927594B1
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EP
European Patent Office
Prior art keywords
combustion chamber
slot
rear part
front part
wall
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EP15158442.2A
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German (de)
French (fr)
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EP2927594A2 (en
EP2927594A3 (en
Inventor
Carsten Dr.-Ing. Clemen
Thomas Dr.-Ing. Dörr
Sebastian Dr.-Ing. Bake
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Rolls Royce Deutschland Ltd and Co KG
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Rolls Royce Deutschland Ltd and Co KG
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23RGENERATING COMBUSTION PRODUCTS OF HIGH PRESSURE OR HIGH VELOCITY, e.g. GAS-TURBINE COMBUSTION CHAMBERS
    • F23R3/00Continuous combustion chambers using liquid or gaseous fuel
    • F23R3/002Wall structures
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23RGENERATING COMBUSTION PRODUCTS OF HIGH PRESSURE OR HIGH VELOCITY, e.g. GAS-TURBINE COMBUSTION CHAMBERS
    • F23R3/00Continuous combustion chambers using liquid or gaseous fuel
    • F23R3/02Continuous combustion chambers using liquid or gaseous fuel characterised by the air-flow or gas-flow configuration
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23RGENERATING COMBUSTION PRODUCTS OF HIGH PRESSURE OR HIGH VELOCITY, e.g. GAS-TURBINE COMBUSTION CHAMBERS
    • F23R3/00Continuous combustion chambers using liquid or gaseous fuel
    • F23R3/02Continuous combustion chambers using liquid or gaseous fuel characterised by the air-flow or gas-flow configuration
    • F23R3/04Air inlet arrangements
    • F23R3/06Arrangement of apertures along the flame tube
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23RGENERATING COMBUSTION PRODUCTS OF HIGH PRESSURE OR HIGH VELOCITY, e.g. GAS-TURBINE COMBUSTION CHAMBERS
    • F23R3/00Continuous combustion chambers using liquid or gaseous fuel
    • F23R3/42Continuous combustion chambers using liquid or gaseous fuel characterised by the arrangement or form of the flame tubes or combustion chambers
    • F23R3/60Support structures; Attaching or mounting means

Definitions

  • the invention relates to a combustion chamber of a gas turbine with an outer combustion chamber wall and attached to the inside of the outer combustion chamber wall shingles.
  • the supply of mixed air serves to optimize the combustion in the combustion chamber.
  • the best possible blocking and mixing of the fuel gases with the admixed air should take place in order to control and minimize NOx emissions.
  • GB 543 918 A From the GB 543 918 A is a combustion chamber previously known, which is constructed of conical, nested elements. The conical mating surfaces form a small gap through which cooling medium can be inserted.
  • GB 543 918 A discloses a combustion chamber according to the preamble of claim 1. Other similar combustion chambers are characterized by US 4,773,227 A . FR 1 036 218 A and DE 11 79 422 B disclosed.
  • the invention has for its object to provide a combustion chamber of a gas turbine, which avoids the disadvantages of the prior art with a simple structure and simple, cost-effective manufacturability and allows optimized supply of mixed air.
  • the combustion chamber in a central region, with respect to the flow direction, a extending around the entire circumference of the combustion chamber wall slot which divides the outer combustion chamber wall and the shingles and can be supplied by the mixed air.
  • the invention thus results in the decisive advantage that the NOx emissions can be reduced in the maximum possible way by the optimized supply of mixed air. It is particularly favorable that the circumferential slot can be provided with an equal effective flow area for air mixing, as known from the prior art Zumischlöcher.
  • the combustion chamber is divided by the slot in a front part and a rear part.
  • front and rear part always refers to the direction of flow through the combustion chamber.
  • the slit provided in accordance with the invention may be formed in a straight line around the entire circumference, that is, with a constant width. It is also possible to make this wavy, be it with the same width or variable width. As a result, an adaptation to the arrangement of the individual, distributed around the circumference of the annular combustion chamber burner is possible.
  • the slot can be provided with a width which varies around the circumference, for example by bulges and constrictions in the circumferential direction.
  • the storage of the shingles on the outer combustion chamber wall can be done in different ways. It is possible to use bolts for this, as shown in the prior art. However, it is also possible to manufacture the front and rear parts of the combustion chamber wall in one piece by means of additive methods (laser deposition welding method or the like). In any case, it is ensured that between the shingle and the outer combustion chamber wall there is a cooling air gap in order to provide in a known manner an impingement cooling and an effusion cooling can.
  • the inventive construction can also be applied for single-walled combustion chambers (without shingles).
  • the front part and the rear part of the combustion chamber wall can change their distance during thermal expansion and thermal contraction.
  • the width of the slot may be greater by a greater distance of the side walls of the slot, as in the hot state.
  • the supply of admixed air is increased in the cold state of the combustion chamber, at the same time less cooling air for the combustion chamber walls.
  • the circumferential slot will have a smaller width.
  • the gas turbine engine 110 is a generalized example of a turbomachine, in which the invention can be applied.
  • the engine 110 is formed in a conventional manner and comprises in succession an air inlet 111, a fan 112 circulating in a housing, a medium pressure compressor 113, a high pressure compressor 114, a combustion chamber 115, a high pressure turbine 116, a medium pressure turbine 117 and a low pressure turbine 118 and a Exhaust nozzle 119, which are all arranged around a central engine center axis 101.
  • the intermediate pressure compressor 113 and the high pressure compressor 114 each include a plurality of stages, each of which includes a circumferentially extending array of fixed stationary vanes 120, commonly referred to as stator vanes, which are radially inwardly of the engine casing 121 in an annular manner Flow channel through the compressors 113, 114 protrude.
  • the compressors further include an array of compressor blades 122 projecting radially outward from a rotatable drum or disc 125 coupled to hubs 126 of high pressure turbine 116 and intermediate pressure turbine 117, respectively.
  • the turbine sections 116, 117, 118 have similar stages, comprising an array of fixed vanes 123 projecting radially inward from the housing 121 into the annular flow passage through the turbines 116, 117, 118, and a downstream array of turbine blades 124, projecting outwardly from a rotatable hub 126.
  • the compressor drum or compressor disk 125 and the vanes 122 disposed thereon and the turbine rotor hub 126 and turbine blades 124 disposed thereon rotate about the engine centerline 101 during operation.
  • the Fig. 2 shows a combustion chamber according to the prior art in a simplified sectional view.
  • the combustion chamber has a combustion chamber outer wall 1 and a heat shield 2, a combustion chamber head 3 and a burner seal 4.
  • shingles 9 are arranged, which are integrally connected with studs 7, which in turn are secured from the outside by means of nuts 8.
  • the presentation of impingement cooling holes and effusion cooling holes was omitted for the sake of simplicity.
  • the combustion chamber In the front region, the combustion chamber in a known manner on a top plate 6.
  • a plurality of individual, discrete admixing holes 5 are formed in the combustion chamber outer wall 1 and the shingles 9, through which mixing air is introduced.
  • the storage of the combustion chamber by means of an outer Brennscharms and an inner Brennscharms 11 and an outer Brennschflansches 12 and an inner Brennschlansches 13.
  • the reference numeral 14 denotes an outer combustion chamber housing, while an inner combustion chamber housing is provided with the reference numeral 15.
  • an outer turbine housing 16 and an inner turbine housing 17 are shown schematically.
  • combustion chamber is mounted at its front part and its rear part in each case by means of separate outer combustion chamber arms 10. These have flow openings 20 in order to ensure an optimized cooling air flow.
  • the two outer combustion chamber arms 10 are fastened with their outer combustion chamber flanges 12 to the outer combustion chamber housing 14 and the outer turbine housing 16.
  • the inner attachment is analogous to the known from the prior art embodiment, in addition, a connection 21 between the combustion chamber and the inner combustion chamber 11 takes place.
  • the Fig. 6 to 8 show in a schematic view design variants of the mixing slot 18.
  • Die Fig. 6 shows a design variant in which the Admixing slot 18 is formed in a straight line with the same width.
  • Fig. 7 a uniform width of the admixing slot 18 is provided. However, this is formed wavy around the circumference.
  • the Fig. 8 shows a design variant of the admixing slot 18, in which this has around the circumference wider areas and bottlenecks.
  • the Fig. 9 to 12 show a development in analog representation too Fig. 5 , It shows the Fig. 9 a cold or colder operating condition while the Fig. 10 shows a hot operating condition.
  • a larger width of the admixing slot 18 is present, as in the FIGS. 11 and 12 analogous to the embodiments of 8 and 6 is shown in the left half of the picture.
  • the parts of the combustion chamber expand, as shown by the arrows 25. This reduces the width of the admixing slot 18. This is compared in the FIGS. 11 and 12 shown in the right half of the picture.
  • FIGS. 13 and 14 show simplified sectional views in analogous representation to the FIGS. 9 and 10 .
  • the embodiment of the FIGS. 13 and 14 an embodiment in which the walls of the portions of the combustion chamber overlap, as in the FIGS. 15 and 16 is shown.
  • the two overlapping areas are each provided with a slot or with holes.
  • the overlap results in the cold state ( Fig. 15 ) a smaller overlap, which results in a total of a smaller width of the admixing slot 18.
  • a hot operating condition Fig. 16
  • the overlap is greater, as seen from the upper half of the Fig. 16 is apparent.
  • the slot geometry in the circumferential direction can be rectilinear or wavy or formed with a changing cross section.
  • the Fig. 13 to 16 thus, an embodiment which, in contrast to the embodiment of the Fig. 9 to 12 acts as the width of the mixing slot widens from cold to hot operating condition.
  • the invention thus enables an ideal blocking / mixing of the admixing air 19 with the fuel gases in the combustion chamber volume 23.
  • the circumferential slot preferably has the same effective flow cross-section or the same through-flow area as comparable admixing holes 5 according to the prior art (see FIG. Fig. 2 ).
  • the combustion chamber according to the invention divides into two parts. Therefore, according to the invention, a suspension concept is described in which the parts of the combustion chamber are suitably fixed to the inner and outer combustion chamber housings and to the turbine housing. This is done, as explained, by additional combustion chamber arms 12. These can be attached in any way to the combustion chamber or connected to this, for example by one-piece design, by welding, by screwing or in a similar manner.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Turbine Rotor Nozzle Sealing (AREA)

Description

Die Erfindung bezieht sich auf eine Brennkammer einer Gasturbine mit einer äußeren Brennkammerwand und mit an der Innenseite der äußeren Brennkammerwand befestigten Schindeln.The invention relates to a combustion chamber of a gas turbine with an outer combustion chamber wall and attached to the inside of the outer combustion chamber wall shingles.

Aus dem Stand der Technik ist es bekannt, durch Zumischlöcher oder Mischluftlöcher radial von außen Luft in den Brennkammerinnenraum einzuführen. Dabei werden stets einzelne, diskrete Zumischlöcher verwendet, welche in geeigneter Weise am Umfang der Brennkammer verteilt sind. Die Zumischlöcher sind dabei üblicherweise in einer oder mehreren Reihen am Umfang der Brennkammer angeordnet.It is known from the prior art to introduce air into the combustion chamber interior radially from the outside by means of admixing holes or mixing air holes. In this case, individual, discrete admixing holes are always used, which are distributed in a suitable manner on the circumference of the combustion chamber. The Zumischlöcher are usually arranged in one or more rows on the circumference of the combustion chamber.

Die Zuführung von Mischluft dient dazu, die Verbrennung in der Brennkammer zu optimieren. Insbesondere soll dabei eine möglichst gute Verblockung und Durchmischung der Brenngase mit der Zumischluft erfolgen, um die NOx-Emissionen zu kontrollieren und zu minimieren.The supply of mixed air serves to optimize the combustion in the combustion chamber. In particular, the best possible blocking and mixing of the fuel gases with the admixed air should take place in order to control and minimize NOx emissions.

Die aus dem Stand der Technik bekannten Konstruktionen weisen den Nachteil auf, dass durch die diskrete, einzelne Anordnung der Zumischlöcher nicht eine maximale Verblockung und eine beste Durchmischung der Zumischluft mit den Brenngasen möglich ist. Somit ist nicht die maximal mögliche Reduzierung der NOx-Emissionen möglich. Als Nachteil bei den bekannten Konstruktionen zeigt sich weiterhin, dass eine beliebige Anordnung der einzelnen diskreten Zumischlöcher zueinander und insbesondere eine beliebige Beabstandung der Zumischlöcher zueinander aufgrund des mechanischen Aufbaues der Brennkammeraußenwand und der Schindel nicht möglich sind.The constructions known from the prior art have the disadvantage that due to the discrete, individual arrangement of the admixing holes, not maximum blocking and best mixing of the admixing air with the combustion gases is possible. Thus, the maximum possible reduction of NOx emissions is not possible. A disadvantage of the known constructions is further shown that any arrangement of the individual discrete Zumischlöcher to each other and in particular an arbitrary spacing of the Zumischlöcher to each other due to the mechanical structure of the combustion chamber outer wall and the shingles are not possible.

Aus der GB 543 918 A ist eine Brennkammer vorbekannt, welche aus konischen, ineinander gesteckten Einzelelementen aufgebaut ist. Die konischen Steckflächen bilden einen geringen Spalt, durch welchen Kühlmedium einführbar ist. GB 543 918 A offenbart eine Brennkammer gemäß dem Oberbegriff des Anspruchs 1. Andere ähnlichen Brennkammern sind durch US 4 773 227 A , FR 1 036 218 A und DE 11 79 422 B offenbart.From the GB 543 918 A is a combustion chamber previously known, which is constructed of conical, nested elements. The conical mating surfaces form a small gap through which cooling medium can be inserted. GB 543 918 A discloses a combustion chamber according to the preamble of claim 1. Other similar combustion chambers are characterized by US 4,773,227 A . FR 1 036 218 A and DE 11 79 422 B disclosed.

Der Erfindung liegt die Aufgabe zugrunde, eine Brennkammer einer Gasturbine zu schaffen, welche bei einfachem Aufbau und einfacher, kostengünstiger Herstellbarkeit die Nachteile des Standes der Technik vermeidet und eine optimierte Zuführung von Mischluft ermöglicht.The invention has for its object to provide a combustion chamber of a gas turbine, which avoids the disadvantages of the prior art with a simple structure and simple, cost-effective manufacturability and allows optimized supply of mixed air.

Erfindungsgemäß wird die Aufgabe durch die Merkmalskombination der Ansprüche 1 oder 2 gelöst, die Unteransprüche zeigen weitere vorteilhafte Ausgestaltungen der Erfindung.According to the invention the object is achieved by the combination of features of claims 1 or 2, the dependent claims show further advantageous embodiments of the invention.

Erfindungsgemäß ist somit vorgesehen, dass die Brennkammer in einem mittleren Bereich, bezogen auf die Durchströmungsrichtung, einen sich um den gesamten Umfang der Brennkammerwand erstreckenden Schlitz aufweist, der die äußere Brennkammerwand und die Schindeln unterteilt und durch den Mischluft zugeführt werden kann.According to the invention it is thus provided that the combustion chamber in a central region, with respect to the flow direction, a extending around the entire circumference of the combustion chamber wall slot which divides the outer combustion chamber wall and the shingles and can be supplied by the mixed air.

Erfindungsgemäß ergibt sich somit der entscheidende Vorteil, dass durch die optimierte Zuführung der Mischluft die NOx-Emissionen in maximal möglicher Weise reduziert werden können. Dabei ist es besonders günstig, dass der Umfangsschlitz mit einer gleichen effektiven Durchströmfläche zur Lufteinmischung versehen sein kann, wie die aus dem Stand der Technik bekannten Zumischlöcher.According to the invention thus results in the decisive advantage that the NOx emissions can be reduced in the maximum possible way by the optimized supply of mixed air. It is particularly favorable that the circumferential slot can be provided with an equal effective flow area for air mixing, as known from the prior art Zumischlöcher.

Erfindungsgemäß ist es vorgesehen, dass die Brennkammer durch den Schlitz in einen vorderen Teil und einen hinteren Teil unterteilt ist. Die Bezeichnung "vorderer und hinterer Teil" bezieht sich dabei stets auf die Durchströmungsrichtung der Brennkammer.According to the invention it is provided that the combustion chamber is divided by the slot in a front part and a rear part. The term "front and rear part" always refers to the direction of flow through the combustion chamber.

Der erfindungsgemäß vorgesehene Schlitz kann um den gesamten Umfang geradlinig, d.h., mit konstanter Breite ausgebildet sein. Es ist auch möglich, diesen gewellt auszubilden, sei es mit gleicher Breite oder variabler Breite. Hierdurch ist eine Anpassung an die Anordnung der einzelnen, um den Umfang der Ringbrennkammer verteilten Brenner möglich. In einer weiteren Ausgestaltungsvariante kann vorgesehen sein, dass der Schlitz mit einer sich um den Umfang ändernden Breite versehen sein kann, beispielsweise durch Ausbuchtungen und Engstellen in Umfangsrichtung.The slit provided in accordance with the invention may be formed in a straight line around the entire circumference, that is, with a constant width. It is also possible to make this wavy, be it with the same width or variable width. As a result, an adaptation to the arrangement of the individual, distributed around the circumference of the annular combustion chamber burner is possible. In a further embodiment variant it can be provided that the slot can be provided with a width which varies around the circumference, for example by bulges and constrictions in the circumferential direction.

Da erfindungsgemäß die Brennkammer in einen vorderen Teil und einen hinteren Teil unterteilt ist, sind der vordere Teil und der hintere Teil der Brennkammer jeweils separat gelagert. Die Lagerung erfolgt bevorzugterweise mittels Brennkammerarmen. Diese weisen in bevorzugter Weiterbildung der Erfindung Durchflussöffnungen auf, um die Luftströmung zu optimieren. Die Querschnitte der Durchflussöffnungen sind dabei bevorzugterweise größer, als der Gesamtquerschnitt des Schlitzes.Since, according to the invention, the combustion chamber is divided into a front part and a rear part, the front part and the rear part of the combustion chamber are each mounted separately. The storage is preferably carried out by means of combustion chamber arms. These have in a preferred embodiment of the invention flow openings in order to optimize the flow of air. The cross sections of the flow openings are preferably larger than the total cross section of the slot.

Es versteht sich, dass die Lagerung der Schindeln an der äußeren Brennkammerwand in unterschiedlicher Weise erfolgen kann. Es ist möglich, hierfür Schraubenbolzen zu verwenden, so wie dies der Stand der Technik zeigt. Es ist jedoch auch möglich, den vorderen und hinteren Teil der Brennkammerwand jeweils einstückig mittels additiven Verfahren (Laserauftragsschweißverfahren oder ähnlichem) herzustellen. In jedem Falle ist sichergestellt, dass zwischen der Schindel und der äußeren Brennkammerwand ein Kühlluftzwischenraum besteht, um in bekannter Weise eine Prallkühlung und eine Effusionskühlung vorsehen zu können. Die erfindungsgemäße Ausbildung kann auch für einwandig ausgeführte Brennkammern (ohne Schindel) angewendet werden.It is understood that the storage of the shingles on the outer combustion chamber wall can be done in different ways. It is possible to use bolts for this, as shown in the prior art. However, it is also possible to manufacture the front and rear parts of the combustion chamber wall in one piece by means of additive methods (laser deposition welding method or the like). In any case, it is ensured that between the shingle and the outer combustion chamber wall there is a cooling air gap in order to provide in a known manner an impingement cooling and an effusion cooling can. The inventive construction can also be applied for single-walled combustion chambers (without shingles).

In einer besonders günstigen Weiterbildung der Erfindung ist vorgesehen, dass der vordere Teil und der hintere Teil der Brennkammerwand ihren Abstand bei thermischer Expansion und thermischer Kontraktion ändern können. Somit ist es möglich, die Breite des Schlitzes zu variieren, abhängig von der Temperatur der Brennkammer. Somit kann im kalten Zustand die Breite des Umfangsschlitzes durch einen größeren Abstand der Seitenwandungen des Schlitzes größer sein, als im heißen Zustand. Damit wird im kalten Zustand der Brennkammer die Zuführung von Zumischluft erhöht, bei gleichzeitig geringerer Kühlluft für die Brennkammerwände. Im heißen Zustand ist dies dann umgekehrt, der Umfangsschlitz wird eine geringere Breite aufweisen. Hierdurch ist eine variable Geometrie zur Lufteinführung und damit eine deutliche Reduzierung der NOx-Emissionen für kältere Betriebspunkte und Betriebszustände der Brennkammer möglich.In a particularly favorable development of the invention it is provided that the front part and the rear part of the combustion chamber wall can change their distance during thermal expansion and thermal contraction. Thus, it is possible to vary the width of the slot, depending on the temperature of the combustion chamber. Thus, in the cold state, the width of the circumferential slot may be greater by a greater distance of the side walls of the slot, as in the hot state. Thus, the supply of admixed air is increased in the cold state of the combustion chamber, at the same time less cooling air for the combustion chamber walls. When hot, this is then reversed, the circumferential slot will have a smaller width. As a result, a variable geometry for air introduction and thus a significant reduction in NOx emissions for colder operating points and operating conditions of the combustion chamber is possible.

Im Folgenden wird die Erfindung anhand eines Ausführungsbeispiels in Verbindung mit der Zeichnung beschrieben. Dabei zeigt:

Fig. 1
eine schematische Darstellung eines Gasturbinentriebwerks gemäß der vorliegenden Erfindung;
Fig. 2
eine vereinfachte Seiten-Schnittansicht einer Brennkammer gemäß dem Stand der Technik;
Fig. 3
eine Seitenansicht, analog Fig. 2, eines ersten Ausführungsbeispiels;
Fig. 4
eine Darstellung, analog Fig. 3, eines zweiten Ausführungsbeispiels;
Fig. 5
eine Darstellung, analog den Fig. 3 und 4, eines weiteren Ausführungsbeispiels;
Fig. 6 bis 8
schematische Darstellungen der Ausgestaltung des erfindungsgemäßen Umfangsschlitzes;
Fig. 9 und 10
Ansichten, analog Fig. 5, mit der Verdeutlichung eines kalten und eines heißen Betriebszustands,
Fig. 11 und 12
Darstellungen, analog den Fig. 6 und 8, im kalten und im heißen Betriebszustand,
Fig. 13 und 14
Erfindungsgemäße Ausgestaltungsvarianten, analog Fig. 9 und 10, und
Fig. 15 und 16
Darstellungen im heißen und kalten Betriebszustand der Ausführungsbeispiele der Fig. 13 und 14 in analoger Darstellung zu dem Fig. 11 und 12.
In the following the invention will be described by means of an embodiment in conjunction with the drawing. Showing:
Fig. 1
a schematic representation of a gas turbine engine according to the present invention;
Fig. 2
a simplified side sectional view of a combustion chamber according to the prior art;
Fig. 3
a side view, analog Fig. 2 , a first embodiment;
Fig. 4
a representation, analog Fig. 3 , a second embodiment;
Fig. 5
a representation analogous to Fig. 3 and 4 , another embodiment;
Fig. 6 to 8
schematic representations of the embodiment of the circumferential slot according to the invention;
FIGS. 9 and 10
Views, analog Fig. 5 , with the illustration of a cold and a hot operating state,
FIGS. 11 and 12
Representations, analogous to 6 and 8 , in cold and hot conditions,
FIGS. 13 and 14
Embodiment variants according to the invention, analogously FIGS. 9 and 10 , and
FIGS. 15 and 16
Representations in the hot and cold operating state of the embodiments of the FIGS. 13 and 14 in an analogous representation to the FIGS. 11 and 12 ,

Das Gasturbinentriebwerk 110 gemäß Fig. 1 ist ein allgemein dargestelltes Beispiel einer Turbomaschine, bei der die Erfindung Anwendung finden kann. Das Triebwerk 110 ist in herkömmlicher Weise ausgebildet und umfasst in Strömungsrichtung hintereinander einen Lufteinlass 111, einen in einem Gehäuse umlaufenden Fan 112, einen Mitteldruckkompressor 113, einen Hochdruckkompressor 114, eine Brennkammer 115, eine Hochdruckturbine 116, eine Mitteldruckturbine 117 und eine Niederdruckturbine 118 sowie eine Abgasdüse 119, die sämtlich um eine zentrale Triebwerksmittelachse 101 angeordnet sind.The gas turbine engine 110 according to Fig. 1 is a generalized example of a turbomachine, in which the invention can be applied. The engine 110 is formed in a conventional manner and comprises in succession an air inlet 111, a fan 112 circulating in a housing, a medium pressure compressor 113, a high pressure compressor 114, a combustion chamber 115, a high pressure turbine 116, a medium pressure turbine 117 and a low pressure turbine 118 and a Exhaust nozzle 119, which are all arranged around a central engine center axis 101.

Der Mitteldruckkompressor 113 und der Hochdruckkompressor 114 umfassen jeweils mehrere Stufen, von denen jede eine in Umfangsrichtung verlaufende Anordnung fester stationärer Leitschaufeln 120 aufweist, die allgemein als Statorschaufeln bezeichnet werden und die radial nach innen vom Triebwerksgehäuse 121 in einem ringförmigen Strömungskanal durch die Kompressoren 113, 114 vorstehen. Die Kompressoren weisen weiter eine Anordnung von Kompressorlaufschaufeln 122 auf, die radial nach außen von einer drehbaren Trommel oder Scheibe 125 vorstehen, die mit Naben 126 der Hochdruckturbine 116 bzw. der Mitteldruckturbine 117 gekoppelt sind.The intermediate pressure compressor 113 and the high pressure compressor 114 each include a plurality of stages, each of which includes a circumferentially extending array of fixed stationary vanes 120, commonly referred to as stator vanes, which are radially inwardly of the engine casing 121 in an annular manner Flow channel through the compressors 113, 114 protrude. The compressors further include an array of compressor blades 122 projecting radially outward from a rotatable drum or disc 125 coupled to hubs 126 of high pressure turbine 116 and intermediate pressure turbine 117, respectively.

Die Turbinenabschnitte 116, 117, 118 weisen ähnliche Stufen auf, umfassend eine Anordnung von festen Leitschaufeln 123, die radial nach innen vom Gehäuse 121 in den ringförmigen Strömungskanal durch die Turbinen 116, 117, 118 vorstehen, und eine nachfolgende Anordnung von Turbinenschaufeln 124, die nach außen von einer drehbaren Nabe 126 vorstehen. Die Kompressortrommel oder Kompressorscheibe 125 und die darauf angeordneten Schaufeln 122 sowie die Turbinenrotornabe 126 und die darauf angeordneten Turbinenlaufschaufeln 124 drehen sich im Betrieb um die Triebwerksmittelachse 101.The turbine sections 116, 117, 118 have similar stages, comprising an array of fixed vanes 123 projecting radially inward from the housing 121 into the annular flow passage through the turbines 116, 117, 118, and a downstream array of turbine blades 124, projecting outwardly from a rotatable hub 126. The compressor drum or compressor disk 125 and the vanes 122 disposed thereon and the turbine rotor hub 126 and turbine blades 124 disposed thereon rotate about the engine centerline 101 during operation.

Die Fig. 2 zeigt eine Brennkammer gemäß dem Stand der Technik in vereinfachter Schnittansicht. Die Brennkammer weist eine Brennkammeraußenwand 1 sowie ein Hitzeschild 2, einen Brennkammerkopf 3 und eine Brennerdichtung 4 auf. An der Innenseite der Brennkammeraußenwand 1 sind Schindeln 9 angeordnet, welche einstückig mit Stehbolzen 7 verbunden sind, welche wiederum von außen mittels Muttern 8 gesichert sind. Auf die Darstellung von Prallkühllöchern und Effusionskühllöchern wurde der Einfachheit halber verzichtet.The Fig. 2 shows a combustion chamber according to the prior art in a simplified sectional view. The combustion chamber has a combustion chamber outer wall 1 and a heat shield 2, a combustion chamber head 3 and a burner seal 4. On the inside of the combustion chamber outer wall 1 shingles 9 are arranged, which are integrally connected with studs 7, which in turn are secured from the outside by means of nuts 8. The presentation of impingement cooling holes and effusion cooling holes was omitted for the sake of simplicity.

Im vorderen Bereich weist die Brennkammer in bekannter Weise eine Kopfplatte 6 auf. Um den Umfang der Brennkammer sind in der Brennkammeraußenwand 1 und den Schindeln 9 mehrere einzelne, diskrete Zumischlöcher 5 ausgebildet, durch welche Mischluft eingeführt wird.In the front region, the combustion chamber in a known manner on a top plate 6. Around the circumference of the combustion chamber, a plurality of individual, discrete admixing holes 5 are formed in the combustion chamber outer wall 1 and the shingles 9, through which mixing air is introduced.

Die Lagerung der Brennkammer erfolgt mittels eines äußeren Brennkammerarms und eines inneren Brennkammerarms 11 sowie eines äußeren Brennkammerflansches 12 und eines inneren Brennkammerflansches 13. Das Bezugszeichen 14 bezeichnet ein äußeres Brennkammergehäuse, während ein inneres Brennkammergehäuse mit dem Bezugszeichen 15 versehen ist. Am Auslass der Brennkammer sind schematisch ein äußeres Turbinengehäuse 16 und ein inneres Turbinengehäuse 17 dargestellt.The storage of the combustion chamber by means of an outer Brennkammerarms and an inner Brennkammerarms 11 and an outer Brennkammerflansches 12 and an inner Brennkammerflansches 13. The reference numeral 14 denotes an outer combustion chamber housing, while an inner combustion chamber housing is provided with the reference numeral 15. At the outlet of the combustion chamber, an outer turbine housing 16 and an inner turbine housing 17 are shown schematically.

Die Fig. 3 bis 5 zeigen jeweils unterschiedliche Ausgestaltungsvarianten der Brennkammer. Bei dem in Fig. 3 gezeigten Ausführungsbeispiel ist insbesondere deutlich ersichtlich, dass die Brennkammer in einen vorderen Teil und einen hinteren Teil unterteilt ist. Die Unterteilung erfolgt durch einen sich in Umfangsrichtung erstreckenden Zumischschlitz 18, welcher sowohl die Brennkammeraußenwand 1 als auch die Schindel 9 durchgreift und sich um den gesamten Umfang erstreckt. Somit ist es möglich, Zumischluft 19 gleichmäßig und wirksam zuzuführen, so wie dies durch die Pfeile dargestellt ist. Bei einer einwandigen Brennkammerausbildung bestehend nur aus der Brennkammeraußenwand 1 ohne Schindel trennt der Zumischschlitz 18 die Brennkammerwand analog in eine vordere und eine hintere Hälfte.The Fig. 3 to 5 show each different design variants of the combustion chamber. At the in Fig. 3 In particular, it can be clearly seen that the combustion chamber is divided into a front part and a rear part. The division is made by a circumferentially extending admixing slot 18, which passes through both the combustion chamber outer wall 1 and the shingle 9 and extends around the entire circumference. Thus, it is possible to uniformly and effectively supply admixing air 19, as shown by the arrows. In a single-wall combustion chamber formation consisting only of the combustion chamber outer wall 1 without shingles the admixing slot 18 separates the combustion chamber wall analogously in a front and a rear half.

Die in Fig. 3 gezeigte Brennkammer ist an ihrem vorderen Teil und ihrem hinteren Teil jeweils mittels separater äußerer Brennkammerarme 10 gelagert. Diese weisen Durchflussöffnungen 20 auf, um eine optimierte Kühlluftführung zu gewährleisten. Die beiden äußeren Brennkammerarme 10 sind mit ihren äußeren Brennkammerflanschen 12 an dem äußeren Brennkammergehäuse 14 sowie dem äußeren Turbinengehäuse 16 befestigt. Die innere Befestigung erfolgt analog der aus dem Stand der Technik bekannten Ausgestaltung, wobei zusätzlich eine Verbindung 21 zwischen der Brennkammer und dem inneren Brennkammerarm 11 erfolgt.In the Fig. 3 shown combustion chamber is mounted at its front part and its rear part in each case by means of separate outer combustion chamber arms 10. These have flow openings 20 in order to ensure an optimized cooling air flow. The two outer combustion chamber arms 10 are fastened with their outer combustion chamber flanges 12 to the outer combustion chamber housing 14 and the outer turbine housing 16. The inner attachment is analogous to the known from the prior art embodiment, in addition, a connection 21 between the combustion chamber and the inner combustion chamber 11 takes place.

Die Ausgestaltungsvariante der Fig. 4 unterscheidet sich hinsichtlich der Lagerung an dem äußeren Brennkammergehäuse 14 und an dem äußeren Turbinengehäuse 16. Die beiden äußeren Brennkammerflansche 12 sind mittels eines Zwischengehäuses 24 befestigt.The design variant of Fig. 4 with respect to the storage on the outer combustion chamber housing 14 and on the outer turbine housing 16. The two outer combustion chamber flanges 12 are secured by means of an intermediate housing 24.

Bei dem in Fig. 5 gezeigten Ausführungsbeispiel erfolgt die Lagerung des hinteren Teils der Brennkammer mit ihrem äußeren Brennkammerflansch 12 zwischen dem Zwischengehäuse 24 und dem äußeren Turbinengehäuse 16, während der vordere Teil der Brennkammer über den Brennkammerkopf 3 und einen äußeren Brennkammerarm 10 gelagert ist.At the in Fig. 5 In the embodiment shown, the bearing of the rear part of the combustion chamber with its outer combustion chamber flange 12 takes place between the intermediate housing 24 and the outer turbine housing 16, while the front part of the combustion chamber is mounted above the combustion chamber head 3 and an outer combustion chamber arm 10.

Die Fig. 6 bis 8 zeigen in schematischer Ansicht Ausgestaltungsvarianten des Zumischschlitzes 18. Die Fig. 6 zeigt eine Ausgestaltungsvariante, bei welcher der Zumischschlitz 18 geradlinig mit gleichbleibender Breite ausgebildet ist. Gemäß Fig. 7 ist eine gleichbleibende Breite des Zumischschlitzes 18 vorgesehen. Dieser ist jedoch um den Umfang gewellt ausgebildet. Die Fig. 8 zeigt eine Ausgestaltungsvariante des Zumischschlitzes 18, bei welcher dieser um den Umfang breitere Bereiche und Engstellen aufweist.The Fig. 6 to 8 show in a schematic view design variants of the mixing slot 18. Die Fig. 6 shows a design variant in which the Admixing slot 18 is formed in a straight line with the same width. According to Fig. 7 a uniform width of the admixing slot 18 is provided. However, this is formed wavy around the circumference. The Fig. 8 shows a design variant of the admixing slot 18, in which this has around the circumference wider areas and bottlenecks.

Die Fig. 9 bis 12 zeigen eine Weiterbildung in analoger Darstellung zu Fig. 5. Dabei zeigt die Fig. 9 einen kalten oder kälteren Betriebszustand, während die Fig. 10 einen heißen Betriebszustand zeigt. Bei dem kalten Betriebszustand liegt eine größere Breite des Zumischschlitzes 18 vor, so wie dies in den Fig. 11 und 12 analog zu den Ausgestaltungen der Fig. 8 und 6 in der linken Bildhälfte dargestellt ist. Bei erhöhter Temperatur (heißer Betriebszustand) dehnen sich die Teile der Brennkammer aus, so wie dies durch die Pfeile 25 dargestellt ist. Hierdurch verringert sich die Breite des Zumischschlitzes 18. Dies ist im Vergleich in den Fig. 11 und 12 in der rechten Bildhälfte gezeigt. Somit ist es möglich, im kalten Betriebszustand ein größeres Mischluftvolumen zuzuführen, um die NOx-Emissionen für kältere Betriebspunkte zu reduzieren.The Fig. 9 to 12 show a development in analog representation too Fig. 5 , It shows the Fig. 9 a cold or colder operating condition while the Fig. 10 shows a hot operating condition. In the cold operating condition, a larger width of the admixing slot 18 is present, as in the FIGS. 11 and 12 analogous to the embodiments of 8 and 6 is shown in the left half of the picture. At elevated temperature (hot operating state), the parts of the combustion chamber expand, as shown by the arrows 25. This reduces the width of the admixing slot 18. This is compared in the FIGS. 11 and 12 shown in the right half of the picture. Thus, it is possible to supply a larger volume of mixed air during cold operation to reduce NOx emissions for colder operating points.

Die Fig. 13 und 14 zeigen vereinfachte Schnittansichten in analoger Darstellung zu den Fig. 9 und 10. In Abwandlung zu dem Ausführungsbeispiel der Fig. 9 und 10, bei welchem die Ränder des Zumischschlitzes 18 gerade ausgebildet sind und direkt einander gegenüberliegend angeordnet sind, zeigt das Ausführungsbeispiel der Fig. 13 und 14 eine Ausgestaltung, bei welcher sich die Wandungen der Teilbereiche der Brennkammer überlappen, so wie dies in den Fig. 15 und 16 dargestellt ist. Die beiden überlappenden Bereiche sind jeweils mit einem Schlitz oder mit Löchern versehen. Durch die Überlappung ergibt sich im kalten Zustand (Fig. 15) eine geringere Überlappung, welche insgesamt in einer geringeren Breite des Zumischschlitzes 18 resultiert. Bei einem heißen Betriebszustand (Fig. 16) ist die Überlappung größer, so wie dies aus der oberen Bildhälfte der Fig. 16 ersichtlich ist. Dies resultiert in einem breiteren wirksamen Zumischschlitz 18. Auch bei diesem Ausführungsbeispiel kann die Schlitzgeometrie in Umfangsrichtung geradlinig oder gewellt oder mit einem sich ändernden Querschnitt ausgebildet sein. Die Fig. 13 bis 16 zeigen somit ein Ausführungsbeispiel, welches gegensätzlich zu dem Ausführungsbeispiel der Fig. 9 bis 12 wirkt, da sich die Breite des Zumischschlitzes vom kalten zum heißen Betriebszustand verbreitert.The FIGS. 13 and 14 show simplified sectional views in analogous representation to the FIGS. 9 and 10 , In a modification to the embodiment of FIGS. 9 and 10 in which the edges of the admixing slot 18 are formed straight and are arranged directly opposite each other, the embodiment of the FIGS. 13 and 14 an embodiment in which the walls of the portions of the combustion chamber overlap, as in the FIGS. 15 and 16 is shown. The two overlapping areas are each provided with a slot or with holes. The overlap results in the cold state ( Fig. 15 ) a smaller overlap, which results in a total of a smaller width of the admixing slot 18. In a hot operating condition ( Fig. 16 ), the overlap is greater, as seen from the upper half of the Fig. 16 is apparent. This results in a wider effective admixing slot 18. Also in this embodiment, the slot geometry in the circumferential direction can be rectilinear or wavy or formed with a changing cross section. The Fig. 13 to 16 Thus, an embodiment which, in contrast to the embodiment of the Fig. 9 to 12 acts as the width of the mixing slot widens from cold to hot operating condition.

Die Erfindung ermöglicht somit eine ideale Verblockung/Vermischung der Zumischluft 19 mit den Brenngasen im Brennkammervolumen 23. Durch den Umfangsschlitz 18, welcher in der Brennkammerwand 1 und der Schindel 9 ausgebildet ist, wird die Zumischluft in optimaler Weise zugeführt, so dass die NOx-Emissionen minimiert werden. Der Umfangsschlitz weist bevorzugterweise den gleichen effektiven Strömungsquerschnitt bzw. die gleiche Durchströmfläche auf, wie vergleichbare Zumischlöcher 5 gemäß dem Stand der Technik (s. Fig. 2).The invention thus enables an ideal blocking / mixing of the admixing air 19 with the fuel gases in the combustion chamber volume 23. By the circumferential slot 18, which is formed in the combustion chamber wall 1 and the shingle 9, the admixing air is supplied in an optimal manner, so that the NOx emissions be minimized. The circumferential slot preferably has the same effective flow cross-section or the same through-flow area as comparable admixing holes 5 according to the prior art (see FIG. Fig. 2 ).

Wie beschrieben, teilt sich die erfindungsgemäße Brennkammer in zwei Teile. Deshalb ist erfindungsgemäß ein Aufhängungskonzept beschrieben, bei welchem die Teile der Brennkammer am inneren und äußeren Brennkammergehäuse und am Turbinengehäuse in geeigneter Weise befestigt sind. Dies erfolgt, wie erläutert, durch zusätzliche Brennkammerarme 12. Diese können in beliebiger Weise an der Brennkammer befestigt oder mit dieser verbunden sein, beispielsweise durch einstückige Ausgestaltung, durch Verschweißen, durch Verschrauben oder in ähnlicher Weise.As described, the combustion chamber according to the invention divides into two parts. Therefore, according to the invention, a suspension concept is described in which the parts of the combustion chamber are suitably fixed to the inner and outer combustion chamber housings and to the turbine housing. This is done, as explained, by additional combustion chamber arms 12. These can be attached in any way to the combustion chamber or connected to this, for example by one-piece design, by welding, by screwing or in a similar manner.

Bezuqszeichenliste:LIST OF REFERENCES:

11
Brennkammer-AußenwandCombustion chamber outer wall
22
Hitzeschildheat shield
33
Brennkammerkopfbulkhead
44
BrennerdichtungBrenner seal
55
ZumischlöcherZumischlöcher
66
Kopfplatteheadstock
77
Stehbolzenstuds
88th
Muttermother
99
Schindelshingle
1010
äußerer Brennkammerarmouter combustion chamber arm
1111
innerer Brennkammerarminner combustion chamber arm
1212
äußerer Brennkammerflanschouter combustion chamber flange
1313
innerer Brennkammerflanschinner combustion chamber flange
1414
äußeres Brennkammergehäuseouter combustion chamber housing
1515
inneres Brennkammergehäuseinner combustion chamber housing
1616
äußeres Turbinengehäuseouter turbine housing
1717
inneres Turbinengehäuseinner turbine housing
1818
ZumischschlitzZumischschlitz
1919
Zumischluftadmixed air
2020
DurchflussöffnungenFlow openings
2121
Verbindung Brennkammer - innerer Brennkammerarm 11Connection combustion chamber - inner combustion chamber arm 11
2222
BrennkammerringraumCombustion chamber annulus
2323
Brennkammervolumencombustion chamber volume
2424
Zwischengehäuseintermediate housing
2525
Ausdehnungexpansion
101101
TriebwerksmittelachseEngine centerline axis
110110
Gasturbinentriebwerk / KerntriebwerkGas turbine engine / core engine
111111
Lufteinlassair intake
112112
Fanfan
113113
Mitteldruckkompressor (Verdichter)Medium pressure compressor (compressor)
114114
HochdruckkompressorHigh pressure compressor
115115
Brennkammercombustion chamber
116116
HochdruckturbineHigh-pressure turbine
117117
MitteldruckturbineIntermediate pressure turbine
118118
NiederdruckturbineLow-pressure turbine
119119
Abgasdüseexhaust nozzle
120120
Leitschaufelnvanes
121121
TriebwerksgehäuseEngine casing
122122
KompressorlaufschaufelnCompressor blades
123123
Leitschaufelnvanes
124124
Turbinenschaufelnturbine blades
125125
Kompressortrommel oder -scheibeCompressor drum or disc
126126
TurbinenrotornabeTurbinenrotornabe
127127
Auslasskonusoutlet cone

Claims (6)

  1. Combustion chamber of a gas turbine, wherein the combustion chamber has in a center area, relative to the flow direction, an admixing slot (18) extending around the entire circumference of the combustion chamber and dividing the combustion chamber into a front part and a rear part for the supply of mixing air, wherein the front part of the combustion chamber and the rear part of the combustion chamber are mounted separately, characterized in that the combustion chamber has an outer combustion chamber wall (1) with tiles (9) attached to the inner side of said wall, and that the front part and the rear part of the combustion chamber have walls, wherein areas if these walls overlap and wherein the overlapping areas of the walls are each provided with a slot or with holes.
  2. Combustion chamber of a gas turbine with a combustion chamber wall (1) of the single-wall design, wherein the combustion chamber has in a center area, relative to the flow direction, an admixing slot (18) extending around the entire circumference of the combustion chamber and dividing the combustion chamber wall (1) into a front part and a rear part for the supply of mixing air, wherein the front part of the combustion chamber and the rear part of the combustion chamber are mounted separately, characterized in that the front part and the rear part of the combustion chamber have walls, wherein areas if these walls overlap and wherein the overlapping areas of the walls are each provided with a slot or with holes.
  3. Combustion chamber in accordance with one of the Claims 1 or 2, characterized in that the slot (18) is designed straight or wavy or with a varying cross-section around the entire circumference.
  4. Combustion chamber in accordance with one of the Claims 1 to 3, characterized in that the front part of the combustion chamber and the rear part of the combustion chamber are mounted by means of combustion chamber arms (10, 11) having through-flow openings (20).
  5. Combustion chamber in accordance with one of the Claims 1 to 4, characterized in that the mounting of the front part and of the rear part of the combustion chamber is designed to vary the width of the slot (18) in the event of thermal expansion or contraction.
  6. Combustion chamber in accordance with Claim 5, characterized in that the width of the slot (18) is variable.
EP15158442.2A 2014-03-11 2015-03-10 Combustion chamber of a gas turbine Active EP2927594B1 (en)

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US9366436B2 (en) 2016-06-14
EP2927594A3 (en) 2016-02-17

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