CN202902340U - Combustion organizational structure - Google Patents

Abstract

The utility model relates to a combustion organizational structure which is arranged in a flame tube shell. The combustion organizational structure comprises a flame tube head with a hole, a lining mounted at the position of the hole of the flame tube head, a swirler assembly mounted in the lining, and a fuel-oil nozzle mounted in the swirler assembly, wherein the swirler assembly and the fuel-oil nozzle are matched to form a whole. According to the combustion organizational structure, the swirler assembly and the fuel-oil nozzle are matched to form the whole, and therefore fuel oil and air are enabled to be mixed uniformly, and the atomization effect is good. Meanwhile, a plurality of tangential air inlets are formed in the lining and play an auxiliary role for forming a recirculation zone. The combustion organizational structure improves ignition performance, flameout performance, combustion efficiency and pollutant discharge of a combustion chamber and the temperature distribution situation of an outlet of the combustion chamber. Besides, working performance of a flame tube is improved, and the service life of the flame tube is prolonged.

Description

The burning institutional framework

Technical field

The utility model relates to the gas-turbine unit field, especially, relates to a kind of burning institutional framework.

Background technology

The burner inner liner head burning institutional framework of turbogenerator is the extremely crucial parts in combustion chamber, and this burning institutional framework forms recirculating zone tissue burning, the retention flame at the burner inner liner head.Existing burning institutional framework intermediate fuel oil nozzle and swirler be separately design substantially all, matching performance is poor, cause the gentle CONCENTRATION DISTRIBUTION in the burner inner liner primary zone of oil even not, affect the situation of ignition performance, extinguishment characteristics, efficiency of combustion, disposal of pollutants and the combustor exit Temperature Distribution of combustion chamber, affected service behaviour and the service life of burner inner liner.

The utility model content

The utility model purpose is to provide a kind of burning institutional framework, and is poor with the matching performance that solves existing burning institutional framework intermediate fuel oil nozzle and swirler, affects the service behaviour of burner inner liner and the technical problem in service life.

For achieving the above object, provide a kind of burning institutional framework according to the utility model, be arranged in the burner inner liner housing, it comprises: the burner inner liner head of perforate, be installed on burner inner liner head tapping lining, be installed on the swirler assembly in the lining and be installed on fuel nozzle in the swirler assembly; Swirler assembly coupling nested with fuel nozzle is integrated.

Further, lining is provided with a plurality of tangential admissions hole, and the axis of air admission hole is perpendicular to the axis of lining.

Further, a plurality of tangential admission hole is uniformly distributed in the same Zhou Yuan of lining.

Further, be provided with deflector in the burner inner liner head, deflector and lining all are welded in the tapping of burner inner liner head.

Further, the surface of burner inner liner head is provided with a plurality of Cooling Holes, and Cooling Holes is towards the surface of deflector.

Further, the swirler assembly comprises two-stage swirler, is connected in Venturi tube and the sleeve of two-stage swirler, and Venturi tube and fuel nozzle docking also are communicated with.

Further, two-stage swirler, Venturi tube and sleeve are all one-body molded.

Further, two-stage swirler comprises interior swirler and the outer swirler that is sleeved on interior swirler periphery, and Venturi tube is connected in interior swirler, and sleeve is connected in the outlet of outer swirler.

Further, the end of sleeve is the opening of taper, the combustion zone of opening in burner inner liner.

The utlity model has following beneficial effect: the swirler assembly of burning institutional framework of the present utility model and fuel nozzle coupling are integrated, so that air-fuel mixture is even, and atomizing effect is good.Simultaneously, lining is provided with a plurality of tangential admissions hole, and the formation of recirculating zone is helped out.Burning institutional framework of the present utility model has improved the situation of ignition performance, extinguishment characteristics, efficiency of combustion, disposal of pollutants and the combustor exit Temperature Distribution of combustion chamber, improves service behaviour and the service life of burner inner liner.

Except purpose described above, feature and advantage, the utility model also has other purpose, feature and advantage.The below is described in further detail the utility model with reference to figure.

Description of drawings

The accompanying drawing that consists of the application's a part is used to provide further understanding of the present utility model, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation that is arranged at the burning institutional framework in the burner inner liner housing of the utility model preferred embodiment; And

Fig. 2 is the structural representation of the burning institutional framework part assembly of the utility model preferred embodiment.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

Referring to Fig. 1, the utility model provides a kind of burning institutional framework that is arranged in the burner inner liner housing, comprise perforate burner inner liner head 1, be installed on burner inner liner head 1 tapping lining 2, be sheathed on the swirler assembly 3 in the lining 2 and be arranged at fuel nozzle 4 in the swirler assembly 3, wherein, swirler assembly 3 and fuel nozzle 4 couplings are integrated, so that air-fuel mixture is even, and atomizing effect is good.

In conjunction with Fig. 2, lining 2 is provided with a plurality of tangential admissions hole 20, gases at high pressure in burner inner liner head 1 inner chamber enter burner inner liner head primary zone by tangential admission hole 20, formation to recirculating zone 6 helps out, preferably, the axis in tangential admission hole 20 is perpendicular to the axis of lining 2, and a plurality of tangential admissions hole 20 is uniformly distributed in the same Zhou Yuan of lining 2, convenient processing, and can avoid the turbulent flow of gases at high pressure.Preferably, be provided with the deflector 5 of tubular in the burner inner liner head 1, deflector 5 and lining 2 all are welded in burner inner liner head 1 tapping, and deflector 5 is stablized the combustion conditions of recirculating zone 6 interior fuel oils.More preferably, the surface of burner inner liner head 1 is provided with a plurality of Cooling Holes 10, and Cooling Holes 10 is towards the surface of deflector 5, and gas cools off deflector 5 after Cooling Holes 10 air inlets.

Swirler assembly 3 comprises two-stage swirler 30, is connected in Venturi tube 31 and the sleeve 32 of two-stage swirler 30, and preferably, two-stage swirler 30, Venturi tube 31 and sleeve 32 are all one-body molded.Two-stage swirler 30 comprises interior swirler 301 and the outer swirler 302 that is sleeved on interior swirler 301 peripheries, and Venturi tube 31 is connected in the outlet of interior swirler 301, and sleeve 32 is connected in the outlet of outer swirler 302, and fuel nozzle 4 and Venturi tube 31 docking also are communicated with.The end of sleeve 32 is the opening of taper, the combustion zone of opening in burner inner liner.Wherein, the rotation direction of inside and outside swirler is opposite, and gases at high pressure are through forming the shearing force of opposite direction behind the two-stage swirler 3.Fuel oil is sprayed onto on the Venturi tube 31 and forms oil film through fuel nozzle 4, and fuel oil mists in the shearing force effect of the inside and outside level air-flow of two-stage swirler 3 and turns to tiny particle.Fuel oil after the atomizing sprays to recirculating zone 6 through sleeve 32, and the angle of the tapered opening of sleeve 32 and size can be controlled backflow size and the length of recirculating zone 6.Preferably, the inwall of Venturi tube 31 is arc surface, has avoided the fuel nozzle end face to form carbon deposit.

During the gas-turbine unit operation, on the one hand, gases at high pressure in the burner inner liner shell enter the burner inner liner head through two-stage swirler 3 eddy flows, fuel oil forms fine particle with the gases at high pressure mixed aerosol of eddy flow after fuel nozzle 4 arrives Venturi tubes 31 on the other hand, fuel particles after being atomized enters the recirculating zone 6 of burner inner liner through sleeve 32, burn.For atomization and the combustion conditions of optimizing fuel oil, gases at high pressure enter burner inner liner through a plurality of tangential admissions hole 20 of lining 2, between the ring cavity of lining 2 and swirler assembly 3, form eddy flow, the formation in auxiliary reflux district 6, the rotation direction of its air-flow and opposite through the rotation direction of the air-flow of interior swirler 301 is identical with rotation direction through the air-flow of outer swirler 302.

The swirler assembly 3 of burning institutional framework of the present utility model and fuel nozzle 4 couplings are integrated, so that air-fuel mixture is even, and atomizing effect is good.Simultaneously, lining 2 is provided with a plurality of tangential admissions hole 20, and the formation of recirculating zone 6 is helped out.Burning institutional framework of the present utility model has improved the situation of ignition performance, extinguishment characteristics, efficiency of combustion, disposal of pollutants and the combustor exit Temperature Distribution of combustion chamber, improves service behaviour and the service life of burner inner liner.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (9)

1. One kind the burning institutional framework, be arranged in the burner inner liner housing, it is characterized in that, comprising: the burner inner liner head (1) of perforate, be installed on described burner inner liner head (1) tapping lining (2), be installed on the swirler assembly (3) in the described lining (2) and be installed on the interior fuel nozzle (4) of described swirler assembly (3);

   Described swirler assembly (3) and described fuel nozzle (4) coupling are integrated.
2. 2. burning institutional framework according to claim 1 is characterized in that, described lining (2) is provided with a plurality of tangential admissions hole (20), and the axis of described air admission hole (20) is perpendicular to the axis of described lining (2).
3. 3. burning institutional framework according to claim 2 is characterized in that, a plurality of described tangential admissions holes (20) are uniformly distributed in the same Zhou Yuan of described lining (2).
4. 4. burning institutional framework according to claim 2 is characterized in that, is provided with deflector (5) in the described burner inner liner head (1), and described deflector (5) and described lining (2) all are welded in the tapping of described burner inner liner head (1).
5. 5. burning institutional framework according to claim 4 is characterized in that, the surface of described burner inner liner head (1) is provided with a plurality of Cooling Holes (10), and described Cooling Holes (10) is towards the surface of described deflector (5).
6. 6. burning institutional framework according to claim 2, it is characterized in that, described swirler assembly (3) comprises two-stage swirler (30), is connected in Venturi tube (31) and the sleeve (32) of described two-stage swirler (30), and described Venturi tube (31) and described fuel nozzle (4) docking also are communicated with.
7. 7. burning institutional framework according to claim 6 is characterized in that, described two-stage swirler (30), Venturi tube (31) and sleeve (32) are all one-body molded.
8. 8. burning institutional framework according to claim 6, it is characterized in that, described two-stage swirler (30) comprises interior swirler (301) and is sleeved on the outer swirler (302) of described interior swirler (301) periphery, described Venturi tube (31) is connected in the outlet of described interior swirler (301), and described sleeve (32) is connected in the outlet of described outer swirler (302).
9. 9. burning institutional framework according to claim 8 is characterized in that, the end of described sleeve (32) is the opening of taper, the combustion zone of described opening in burner inner liner.

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