CN207599789U - The rear flame fuel injection apparatus of gas turbine - Google Patents
The rear flame fuel injection apparatus of gas turbine Download PDFInfo
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- CN207599789U CN207599789U CN201721687397.1U CN201721687397U CN207599789U CN 207599789 U CN207599789 U CN 207599789U CN 201721687397 U CN201721687397 U CN 201721687397U CN 207599789 U CN207599789 U CN 207599789U
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- fuel
- end plate
- flame fuel
- rear flame
- mixing
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Abstract
The utility model discloses a kind of rear flame fuel injection apparatus of gas turbine, the rear flame fuel injection apparatus includes rear flame fuel playpipe, and the peripheral wall of the rear flame fuel playpipe is equipped with teasehole;Mix core, the mixing core is located in the rear flame fuel playpipe, multiple hybrid channels are equipped in the mixed core body, the hybrid channel along after described flame fuel playpipe it is axially extending, the hybrid channel has the air inlet being located on the outer end face of the mixing core, the fuel inlet on the side of the mixing core and on the inner face of the mixing core for spraying the ejiction opening of the mixture of air and fuel.The utility model sets mixing core in rear flame fuel playpipe, improves the mixing effect of fuel and air, and simple in structure, reduces the cost of system.
Description
Technical field
The utility model is related to gas turbine technology fields, are sprayed more particularly to a kind of rear flame fuel of gas turbine
Device.
Background technology
In the thermodynamic cycle of gas turbine, the indoor fuel gas temperature that burns is higher, is more conducive to the raising of efficiency and power.
But excessive air easily forms oxynitrides NO at high temperatureX, and in order to reduce the thermal NOXDischarge, then need
Reduce indoor maximum temperature of burning.It on the one hand needs to improve temperature as a result, to meet the needs of power, on the other hand then needs to drop
Low maximum temperature is to reach emission request.
In the relevant technologies, using fractional combustion in the combustion chamber of gas turbine, for a kind of classification combustion in gas turbine
It burns for " late lean injection ", in the fractional combustion of this type, late lean injection device is located at the downstream of main burning nozzle, herein
Downstream position increases fuel, can not only increase power, but also is avoided that burning indoor temperature is excessively high.However, the poor spray of current delay
Emitter is complicated, increases the cost of system, and fuel inlet is located on annular fuel passage, and fuel and air mixing is paid no attention to
Think.
Utility model content
The utility model is intended to solve at least some of the technical problems in related technologies.
For this purpose, the utility model proposes a kind of rear flame fuel injection apparatus of gas turbine, the rear flame fuel spray
Injection device improves the mixing effect of fuel and air, and simple in structure, reduces the cost of system.
The rear flame fuel injection apparatus of the gas turbine of embodiment according to the present utility model is sprayed including rear flame fuel
Pipe is penetrated, the peripheral wall of the rear flame fuel playpipe is equipped with teasehole;Core is mixed, the mixing core is located at the rear fire
In flame fuel injection pipe, multiple hybrid channels are equipped in the mixed core body, the hybrid channel is sprayed along the rear flame fuel
Penetrate the axially extending of pipe, the hybrid channel have fuel inlet, the air inlet on the outer end face of the mixing core and
Ejiction opening on the inner face of the mixing core, wherein air enter the hybrid channel by the air inlet, from
The fuel that the teasehole enters the rear flame fuel playpipe enters the hybrid channel by the fuel inlet, enters
The fuel and air of the hybrid channel mix resulting mixture in the hybrid channel and the mixture is by the ejiction opening
It sprays.
According to the rear flame fuel injection apparatus of the gas turbine of the utility model embodiment, by being sprayed in rear flame fuel
Setting mixing core in pipe is penetrated, the mixing effect of fuel and air is improved, and simple in structure, reduces the cost of system.
In some embodiments, the mixing core includes outer end plate, inner end plate and multiple mixing tubes, on the outer end plate
Equipped with the multiple air admission holes for forming the air inlet, the inner end plate is equipped with the multiple squit holes for forming the ejiction opening, institute
The outer end for stating mixing tube is connected with the outer end plate and is connected with the corresponding air admission hole, the inner end of the mixing tube with it is described
Inner end plate is connected and is connected with corresponding squit hole, and the fuel inlet is formed on the peripheral wall of the mixing tube, wherein described
The inner cavity of air admission hole, the squit hole and the mixing tube forms the hybrid channel.
In some embodiments, the air admission hole, the squit hole and the mixing tube correspond.
In some embodiments, the outer end of the mixing tube is inserted into the corresponding air admission hole and the mixing
The inner end of pipe is inserted into the corresponding squit hole.
In some embodiments, the air admission hole is arranged to the evenly spaced radial multi-turn along the outer end plate, each
The circumferential direction of the air admission hole along the outer end plate in circle is evenly distributed and is separated from each other.
In some embodiments, the squit hole is arranged to multi-turn, each circle along the evenly spaced radial of the inner end plate
The circumferential direction of the interior squit hole along the inner end plate is evenly distributed and is separated from each other.
In some embodiments, the fuel inlet on each mixing tube is equipped with multiple, multiple fuel into
The circumferential uniform intervals arrangement of mixing tube described in opening's edge.
In some embodiments, the outer end plate and the inner end plate are parallel to each other.
In some embodiments, the axis of multiple mixing tubes is each parallel to the axis of the rear flame fuel playpipe
Line.
In some embodiments, the teasehole is equipped with multiple, and multiple teaseholes are sprayed along the rear flame fuel
The circumferential uniform intervals arrangement of pipe.
Description of the drawings
Fig. 1 is the structure diagram of the burner of the rear flame fuel injection apparatus with the utility model embodiment.
Fig. 2 is the sectional view of the rear flame fuel injection apparatus of the gas turbine of embodiment according to the present utility model.
Fig. 3 is the sectional view of the rear flame fuel injection apparatus of the gas turbine of embodiment according to the present utility model.
Reference numeral:
Burner inner liner 1, guide bushing 2, floating lantern ring 3, cylindrical portion 31, direct tube section 311, loudspeaker section 312, peripheral part 32, after
Flame fuel playpipe 4, mixing core 5, outer end plate 51, mixing tube 52, inner end plate 53, bearing 6, pedestal 61, cylinder 611 are convex
Edge 612, cofferdam 613, annular cover plate 62, hybrid channel 7, air inlet 71, fuel inlet 72, ejiction opening 73, cooling hole 8, flange
9, outer shroud 10, annular outer groove 101, annular trough 102, intercommunicating pore 103, inner ring 11, inner ring annular groove 111, annular fuel passage
12, fuel through-hole 13, circular passage 14, annular groove 15, fuel channel 16, fuel cover board 17, air admission hole 18, squit hole 19.
Specific embodiment
The embodiment of the utility model is described below in detail, the example of the embodiment is shown in the drawings.Below by
The embodiment being described with reference to the drawings is exemplary, it is intended to for explaining the utility model, and it is not intended that new to this practicality
The limitation of type.
As shown in Figure 1, 2, the burner of gas turbine includes burner inner liner 1 and guide bushing 2, front end (Fig. 1 of burner inner liner 1
Shown in left end) equipped with primary fuel nozzles, to spray fuel into burner inner liner 1.Guide bushing 2 is set in burner inner liner 1
On, circular passage 14 is formed between guide bushing 2 and burner inner liner 1.Pressure-air through compressor compression is through the circular passage 14
Into the front end of burner inner liner 1, and mix in burner inner liner 1 with the fuel that primary fuel nozzles spray, burn.
And it is installed on the burner according to the rear flame fuel injection apparatus of the gas turbine of the utility model embodiment
The downstream (right side shown in FIG. 1) of primary fuel nozzles, the mixture of fuel and air is ejected into working fluid.Pass through
The rear flame fuel injection apparatus of the gas turbine of the utility model embodiment sprays fuel and air into burner, in primary
The mixing of fuel and air, burning are realized in combustion zone downstream, to improve NOXDischarge.
Specifically, as Figure 2-3, according to the rear flame fuel injection apparatus of the gas turbine of the utility model embodiment
Including rear flame fuel playpipe 4 and mixing core 5, the peripheral wall of rear flame fuel playpipe 4 is equipped with teasehole.
Mixing core 5 is located in rear flame fuel playpipe 4, and multiple hybrid channels 7 are equipped in mixing core 5, and mixing is logical
Road 7 is axially extending along rear flame fuel playpipe 4, and hybrid channel 7 has air inlet 71, fuel inlet 72 and ejiction opening 73,
Wherein air inlet 71 is located on the outer end face of mixing core 5, and ejiction opening 73 is located on the inner face of mixing core 5.Herein, it is " outer
End " refers to one end of neighbouring guide bushing 2, i.e., upper end shown in Fig. 2;" inner end " refers to one end of neighbouring burner inner liner 1, that is, schemes
Lower end shown in 2.
It is understood that the outer end (Fig. 2, the upper end shown in 3) of rear flame fuel playpipe 4 is fixed on guide bushing 2
On, the inner end of rear flame fuel playpipe 4 (Fig. 2, the lower end shown in 3) extends to burner inner liner 1.Specifically, rear flame fuel spray
The opening for penetrating the inner end of pipe 4 is concordant with the internal face of burner inner liner 1.
External air is entered by air inlet 71 in hybrid channel 7 as a result, is sprayed by teasehole into rear flame fuel
Fuel in pipe 4 enters through fuel inlet 72 in hybrid channel 7, and fuel and air are mixed in hybrid channel 7, after mixing
The mixtures of fuel and air be ejected in burner inner liner 1 by ejiction opening 73.
Herein, the radial dimension of hybrid channel 7 is smaller, and fuel and air can be sufficiently mixed in hybrid channel 7, so as to
It realizes in Small-scale Space fuel and the microring array of air.Here, the micro-in " microring array " refers to the mixed of fuel and air
It is small to close space, can realize the microring array of fuel and air, is sprayed thus according to the rear flame fuel in the utility model embodiment
Hybrid channel in injection device is microring array channel.
According to the rear flame fuel injection apparatus of the gas turbine of the utility model embodiment, by being sprayed in rear flame fuel
Mixing core of the setting with microring array channel in pipe is penetrated, improves the mixing effect of fuel and air, and the rear flame combustion
Expect that injection apparatus is simple in structure, reduce the cost of system.
In some embodiments, mixing core 5 includes outer end plate 51, inner end plate 52 and multiple mixing tubes 53, outer end plate 51
The multiple air admission holes 18 for forming air inlet 71 are equipped with, inner end plate 52 is equipped with the multiple squit holes 19 for forming ejiction opening 73, mixes
The outer end (Fig. 2, the upper end shown in 3) for closing pipe 53 is connected, and the outer end of mixing tube 53 and corresponding outer end plate with outer end plate 51
Air admission hole 18 on 51 connects, and the inner end of mixing tube 53 (Fig. 2, the lower end shown in 3) is connected, and mixing tube 53 with inner end plate 52
Inner end connected with corresponding squit hole 19, fuel inlet 72 is formed on the peripheral wall of mixing tube 53, and the inner cavity of mixing tube 5 is formed
Hybrid channel 7.
It is understood that mixing tube 5 is the smaller microring array pipe of radial dimension, to realize combustion in Small-scale Space
The microring array of material and air.Moreover, multiple air admission holes 18 on outer end plate 51 are the air inlet 71 of hybrid channel 7, inner end plate
Multiple squit holes 19 on 52 are the ejiction opening 73 of hybrid channel 7.External air through the air admission hole 18 on outer end plate 51 into
Enter in mixing tube 53, fuel enters through the fuel inlet 72 on 53 peripheral wall of mixing tube in mixing tube 53, and fuel and air are mixing
Microring array is carried out in pipe 53, mixed mixture is sprayed into through squit hole 19 on inner end plate 52 in burner inner liner 1.
In some embodiments, 51 enterprising stomata 18 of outer end plate, the squit hole 19 on inner end plate 52 with mixing tube 53 one by one
It is corresponding.In other words, outer end plate 51 and inner end plate 52 are respectively provided with the air admission hole 18 identical with 53 numbers of mixing tube and squit hole 19.
It is understood that connectivity structure known in the art, which can be used, is respectively communicated with the outer end of mixing tube 53 and air admission hole 18, mixed
Close the inner end of pipe 53 and squit hole 19.In the present embodiment, the outer end of mixing tube 53 be inserted into corresponding air admission hole 18 and
The inner end of mixing tube 53 is inserted into corresponding squit hole 19, and the both ends of wherein mixing tube 53 are inserted respectively into air admission hole 18
In distance and be inserted into squit hole 19 distance can depending on actual conditions, such as Fig. 2, shown in 3, the upper end of mixing tube 53
It is inserted into correspondingly air admission hole 18, and the upper surface of mixing tube 53 and the upper surface flush of air admission hole 18;Mixing tube
53 lower end is inserted into correspondingly squit hole 19, and the lower face of mixing tube 53 is equal with the lower face of squit hole 19
Together.
In some embodiments, multiple air admission holes 18 on outer end plate 51 are arranged to along the evenly spaced radial of outer end plate 51
Multi-turn, the circumferential direction of air admission hole 18 along outer end plate 51 in each circle is evenly distributed and is separated from each other.
In some embodiments, multiple squit holes 19 on inner end plate 52 are arranged to along the evenly spaced radial of inner end plate 52
Multi-turn, the circumferential direction of squit hole 19 along inner end plate 52 in each circle is evenly distributed and is separated from each other.Further, as Fig. 2,
Shown in 3, the inner end plate 52 of 53 lower end of outer end plate 51 and mixing tube of 53 upper end of mixing tube is parallel to each other.
In some embodiments, the axis of multiple mixing tubes 53 is each parallel to the axis of rear flame fuel playpipe 4.
In some embodiments, the teasehole on rear flame fuel playpipe 4 is equipped with multiple, and multiple teaseholes fire after
The circumferential uniform intervals arrangement of flame fuel injection pipe 4.
Further, the water conservancy diversion of the burner of the rear flame fuel injection apparatus of the gas turbine of the utility model is installed
Bushing 2 is equipped with mounting hole, is equipped with outer shroud 10 in mounting hole, outer peripheral edge and the guide bushing 2 of outer shroud 10 are welded.
Outer shroud 10 has annular outer groove 101, annular trough 102 and intercommunicating pore 103.Annular outer groove 101 is along the outer shroud 10
It is radially outward open, radially-inwardly opening of the annular trough 102 along the outer shroud 10, intercommunicating pore 103 is used to connect annular outer groove 101
With annular trough 102.
Inner ring 11 is installed, inner ring 11 has an inner ring annular groove 111, and inner ring annular groove 111 is along the inner ring 11 in outer shroud 10
Radially outward opening, also there is in inner ring 11 fuel through-hole 13.
The inner ring annular groove 111 of inner ring 11 docks to form annular fuel passage 12, ring with the annular trough 102 of outer shroud 10
Shape fuel channel 12 is connected with fuel channel 16.
It is understood that the fuel in fuel channel 16 passes through the fuel through-hole on annular fuel passage 12 and inner ring 11
13 and rear flame fuel playpipe 4 teasehole by fuel inlet 72 enter mixing tube 53 in.
As shown in Figure 2,3, the burner for installing the rear flame fuel injection apparatus of the gas turbine of the utility model also wraps
Floating lantern ring 3 is included, floating lantern ring 3 is mounted on by bearing 6 on burner inner liner 1.Bearing 6 is mounted in the mounting hole on burner inner liner 6,
Floating lantern ring 3 is mounted on bearing 6, and relative to bearing 6 floating lantern ring 3 it is radially whole be displaced outwardly or it is whole inwardly
It is mobile.
Bearing 6 includes pedestal 61 and annular cover plate 62, and pedestal 61 includes cylinder 611, flange 612 and cofferdam 613, flange
612 from upper end periphery the extending radially outwardly along the cylinder 611 of cylinder 611, and cofferdam 613 is from the outer peripheral edge of flange 612 along cylinder
Body 611 extends axially outward.
Annular cover plate 62 is connected with the inner wall in cofferdam 613 and positioned at the upper end of flange 612, annular cover plate 62 and flange 612
Between there are gap, so that annular cover plate 62, cofferdam 613 and flange 612 form annular groove 15.
Floating lantern ring 3 includes the cylindrical portion 31 on top and the peripheral part 32 of lower part, upper end and the cylindrical portion 31 of peripheral part 32
It is connected, peripheral part 32 extends radially outwardly along cylindrical portion 31.The peripheral part 32 of floating lantern ring 3 coordinates in annular groove 15 and edge
The upper surface of flange 612 is displaced outwardly in the radially entirety of floating lantern ring 3 or entirety moves inward.
Cylindrical portion 31 includes the direct tube section 311 of lower part and the loudspeaker section 312 on top, upper end and the loudspeaker section of direct tube section 311
312 connections, the radial dimension of loudspeaker section 312 gradually increase from top to bottom.
The upper end of flame fuel playpipe 4 has flange 9 afterwards, and flange 9 is located above outer shroud 10, and flange 9 passes through spiral shell
Bolt is fastened on outer shroud 10, and rear flame fuel playpipe 4 is passed through out of inner ring 11, and the lower end of rear flame fuel playpipe 4 according to
It is secondary to be stretched into the cylinder 611 of pedestal 61 across the cylindrical portion 31 of floating lantern ring 3 and peripheral part 32, the cylindrical portion 31 of floating lantern ring 3
Direct tube section 311 and rear 4 tight fit of flame fuel playpipe, the lower face of rear flame fuel playpipe 4, the lower face of bearing 6
With the internal face flush of burner inner liner 1, sprayed into so as to the mixture of fuel and air by the lower end of rear flame fuel playpipe 4
In burner inner liner 1.
The wall of cylinder 611 is equipped with the cooling hole 8 that is connected with circular passage 14, cooling air can by cooling hole 8 into
Enter in pedestal 61, with flame fuel playpipe 4 after cooling and featheriness.
Below with reference to the accompanying drawings after 1, attached drawing 2 and attached drawing 3 describe the gas turbine according to the utility model specific embodiment
Flame fuel injection apparatus.
As shown in Figs. 1-3, after being included according to the rear flame fuel injection apparatus of the gas turbine of the utility model embodiment
Flame fuel playpipe 4 and mixing core 5.
There are multiple teaseholes afterwards, multiple teaseholes are along rear flame fuel playpipe 4 on the peripheral wall of flame fuel playpipe 4
Circumferential uniform intervals arrangement.
Mixing core 5 is located in rear flame fuel jet pipe 4 and including the mixed of outer end plate 51, inner end plate 52 and realization microring array
Pipe 53 is closed, outer end plate 51 and inner end plate 52 are parallel to each other, and mixing tube 53 is multiple and respectively along the axis of rear flame fuel blast tube 4
To extension, the axis of multiple mixing tubes 53 is each parallel to the axis of rear flame fuel nozzle 4.The peripheral wall of mixing tube 53 is equipped with more
The fuel inlet 72 that a circumferential uniform intervals along mixing tube 53 are arranged.
Outer end plate 51 is equipped with the multiple air admission holes 18 for forming air inlet 71, and inner end plate 52, which is equipped with, forms ejiction opening 73
Multiple squit holes 19, the upper end of mixing tube 53 are connected with outer end plate 51, and the upper end of mixing tube 53 is inserted into corresponding air inlet
In the hole 18 and upper surface of mixing tube 53 and the upper surface flush of air admission hole 18, lower end and 52 phase of inner end plate of mixing tube 53
Even, and the lower end of mixing tube 53 is inserted into corresponding squit hole 19 and under the lower face of mixing tube 53 and squit hole 19
End face flush.
It is understood that external air enters through the air admission hole 18 on outer end plate 51 in mixing tube 53, fuel is through mixed
The fuel inlet 72 closed on 53 peripheral wall of pipe enters in mixing tube 53, and fuel and air carry out microring array, mixing in mixing tube 53
Mixture afterwards is sprayed into through squit hole 19 on inner end plate 52 in burner inner liner 1.
Outer end plate 51 and inner end plate 52 are respectively provided with the air admission hole 18 identical with 53 numbers of mixing tube and squit hole 19, and mixed
Pipe 53, air admission hole 18 and 19 three of squit hole is closed to correspond.Multiple air admission holes 18 on outer end plate 51 are arranged to along outer end plate
51 evenly spaced radial multi-turn, the circumferential direction of air admission hole 18 along outer end plate 51 in each circle is evenly distributed and is spaced
It opens.Multiple squit holes 19 on inner end plate 52 are arranged to multi-turn along the evenly spaced radial of inner end plate 52, the ejection in each circle
The circumferential direction of hole 19 along inner end plate 52 is evenly distributed and is separated from each other.
In the description of the present invention, it is to be appreciated that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width
Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " suitable
The orientation or position relationship of the instructions such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " are based on orientation shown in the drawings
Or position relationship, be for only for ease of description the utility model and simplify description rather than instruction or imply signified device or
Element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that limit to the utility model
System.
In addition, term " first ", " second " are only used for description purpose, and it is not intended that instruction or hint relative importance
Or the implicit quantity for indicating indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include at least one this feature." multiple " are meant that at least two, such as two in the description of the present invention,
It is a, three etc., unless otherwise specifically defined.
In the utility model unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu
It is fixed " etc. terms should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or integral;Can be
Mechanical connection or electrical connection can communicate each other;It can be directly connected, the indirect phase of intermediary can also be passed through
Even, can be the interaction relationship of connection inside two elements or two elements, unless otherwise restricted clearly.For this
For the those of ordinary skill in field, concrete meaning of the above-mentioned term in the utility model can be understood as the case may be.
In the utility model unless specifically defined or limited otherwise, fisrt feature is "above" or "below" second feature
Can be that the first and second features are in direct contact or the first and second features pass through intermediary mediate contact.Moreover, first is special
Sign second feature " on ", " top " and " above " can be fisrt feature right over second feature or oblique upper or only
Represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be with
It is fisrt feature immediately below second feature or obliquely downward or is merely representative of fisrt feature level height less than second feature.
In the description of this specification, reference term " one embodiment ", " example ", " is specifically shown " some embodiments "
The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description
Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term
It states and is necessarily directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be with
It combines in an appropriate manner in any one or more of the embodiments or examples.In addition, without conflicting with each other, this field
Technical staff can by the different embodiments or examples described in this specification and the feature of different embodiments or examples into
Row combines and combination.
Although the embodiment of the utility model has been shown and described above, it is to be understood that above-described embodiment is
Illustratively, it is impossible to be construed as a limitation of the present invention, those of ordinary skill in the art are in the scope of the utility model
It is interior to make changes, modifications, substitutions and variations to the above described embodiments.
Claims (10)
1. a kind of rear flame fuel injection apparatus of gas turbine, which is characterized in that including:
Flame fuel playpipe afterwards, the peripheral wall of the rear flame fuel playpipe are equipped with teasehole;
Core is mixed, the mixing core is located in the rear flame fuel playpipe, is equipped in the mixed core body multiple mixed
Close channel, the hybrid channel along after described flame fuel playpipe it is axially extending, the hybrid channel have fuel inlet,
Air inlet on the outer end face of the mixing core and the ejiction opening on the inner face of the mixing core, it is hollow
Gas enters the hybrid channel by the air inlet, and the fuel that the rear flame fuel playpipe is entered from the teasehole leads to
The fuel inlet is crossed into the hybrid channel, the fuel and air into the hybrid channel are mixed in the hybrid channel
The synthetic mixture and mixture is sprayed by the ejiction opening.
2. the rear flame fuel injection apparatus of gas turbine according to claim 1, which is characterized in that the mixing core
Including outer end plate, inner end plate and multiple mixing tubes, the outer end plate is equipped with the multiple air admission holes for forming the air inlet, described
Inner end plate is equipped with the multiple squit holes for forming the ejiction opening, the outer end of the mixing tube be connected with the outer end plate and with it is right
The air admission hole connection answered, the inner end of the mixing tube is connected with the inner end plate and is connected with corresponding squit hole, described
Fuel inlet is formed on the peripheral wall of the mixing tube, and the inner cavity of the mixing tube forms the hybrid channel.
3. the rear flame fuel injection apparatus of gas turbine according to claim 2, which is characterized in that the air admission hole,
The squit hole is corresponded with the mixing tube.
4. the rear flame fuel injection apparatus of gas turbine according to claim 3, which is characterized in that the mixing tube
Outer end is inserted into the corresponding air admission hole and the inner end of the mixing tube is inserted into the corresponding squit hole
It is interior.
5. the rear flame fuel injection apparatus of gas turbine according to claim 3, which is characterized in that the air admission hole cloth
Be set to the evenly spaced radial multi-turn along the outer end plate, the air admission hole in each circle along the outer end plate it is circumferential
It is even to arrange and be separated from each other.
6. the rear flame fuel injection apparatus of gas turbine according to claim 3, which is characterized in that the squit hole edge
The evenly spaced radial of the inner end plate is arranged to multi-turn, the squit hole in each circle along the inner end plate it is circumferential uniformly
It arranges and is separated from each other.
7. the rear flame fuel injection apparatus of gas turbine according to claim 2, which is characterized in that each mixing
The fuel inlet on pipe is equipped with multiple, circumferential uniform intervals arrangement of multiple fuel inlets along the mixing tube.
8. the rear flame fuel injection apparatus of gas turbine according to claim 2, which is characterized in that the outer end plate and
The inner end plate is parallel to each other.
9. the rear flame fuel injection apparatus of gas turbine according to claim 2, which is characterized in that multiple mixing
The axis of pipe is each parallel to the axis of the rear flame fuel playpipe.
10. the rear flame fuel injection apparatus of the gas turbine according to any one of claim 1-9, which is characterized in that
The teasehole is equipped with multiple, circumferential uniform intervals arrangement of multiple teaseholes along the rear flame fuel playpipe.
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CN201721687397.1U CN207599789U (en) | 2017-12-06 | 2017-12-06 | The rear flame fuel injection apparatus of gas turbine |
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CN201721687397.1U CN207599789U (en) | 2017-12-06 | 2017-12-06 | The rear flame fuel injection apparatus of gas turbine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108061308A (en) * | 2017-12-06 | 2018-05-22 | 中国联合重型燃气轮机技术有限公司 | The rear flame fuel injection apparatus of gas turbine |
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2017
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108061308A (en) * | 2017-12-06 | 2018-05-22 | 中国联合重型燃气轮机技术有限公司 | The rear flame fuel injection apparatus of gas turbine |
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