CN204853553U - A multistage dual fuel nozzle for chemical regenerative cycle - Google Patents
A multistage dual fuel nozzle for chemical regenerative cycle Download PDFInfo
- Publication number
- CN204853553U CN204853553U CN201520614930.6U CN201520614930U CN204853553U CN 204853553 U CN204853553 U CN 204853553U CN 201520614930 U CN201520614930 U CN 201520614930U CN 204853553 U CN204853553 U CN 204853553U
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- China
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- gas circuit
- tube wall
- pipe wall
- middle level
- internal layer
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Abstract
An object of the utility model is to provide a multistage dual fuel nozzle for chemical regenerative cycle, including working connection pipeline wall, vice oil circuit pipeline wall, gas circuit passageway subassembly, middle level gas circuit pipe wall sets up in outer gas circuit pipe wall, inlayer gas circuit pipe wall sets up in the gas circuit pipe wall of middle level, working connection head pipe wall sets up in inlayer gas circuit pipe wall, vice oil circuit head pipe wall sets up in working connection head pipe wall, constitute outer gas circuit passageway between outer gas circuit pipe wall and the middle level gas circuit pipe wall, constitute middle level gas circuit passageway between middle level gas circuit pipe wall and the inlayer gas circuit pipe wall, constitute inlayer gas circuit passageway between inlayer gas circuit pipe wall and the working connection head pipe wall, constitute the working connection passageway between working connection head pipe wall and the vice oil circuit head pipe wall, form vice oil circuit in the vice oil circuit head pipe wall. The utility model provides high combustion efficiency has shortened the length of flame, has improved combustion chamber outlet temperature field homogeneity, has reduced nozzle head temperature, the pipe wall of not ablating again simultaneously.
Description
Technical field
The utility model relates to a kind of gas turbine, specifically the fuel nozzle of gas turbine.
Background technology
Owing to having, structure is simple, single-machine capacity is large, weight and size is little, mobility is good for gas turbine, high reliability, is widely used in many industrial circles such as aviation, boats and ships, electric power, oil.Therefore, corresponding technological transformation and performance optimization are carried out to conventional gas turbines, become the important topic solving energy crisis and problem of environmental pollution.
Chemical regenerative cycle, as the novel advanced person's circulation of one, has the advantage that energy utilization rate is high and pollutant emission is low.It mainly utilizes the waste heat of combustion turbine exhaustion to produce superheated steam, and simultaneously under catalyst action, diesel oil-steam reformation generates the reformed gas containing components such as CH4, H2, CO.Research shows, if diesel oil is reformed completely, reformed gas burns the heat produced can than the heat increase about 30% of diesel combustion release.In chemical regenerative cycle gas turbine operation process, first adopt diesel oil to start, now present oil inflame state in combustion chamber; Secondly, utilize water to reclaim waste heat gas, generate water vapour and be recycled into combustion chamber, in combustion chamber, presenting steam-recycling oil inflame state; Again, the water vapour in reformer and diesel oil are under the effect of catalyst, and absorb waste heat gas and carry out reforming reaction generation reformed gas, reformed gas replaces water vapour and is recycled in combustion chamber, now presents oil-gas mixed burning state in combustion chamber; Finally, along with increasing of reformed gas growing amount, the diesel oil in combustion chamber is progressively substituted, and presents gas fuel combustion state in final combustion chamber.Therefore, chemical regenerative cycle gas-turbine combustion chamber not only has the function of independent combustion diesel fuel or reformed gas fuel, also has the function of steam-recycling and oil-gas mixed burning.Nozzle is as the significant components of combustion chamber, the quality of its performance will directly affect the performance of the aspects such as igniting, efficiency of combustion, combustion stability, Temperature Distribution and exhaust pollution, also can affect the life-span of burner inner liner and turbo blade simultaneously, therefore in order to meet the requirement of chemical regenerative cycle gas turbine, the design for dual fuel nozzle seems particularly important.
Identical in order to ensure the outlet temperature of combustion chamber, the mass flow of reformed gas will be far longer than fuel mass flow, flow velocity is too large, flow field is difficult to tissue, easily causes the problems such as mixing effect between reformed gas and air worsens, flame elongates, efficiency of combustion reduces, combustor exit temperature field uniformity reduces, nozzle head is overheated; During diesel combustion, water vapour is by gas circuit re-injection, decreases the input of steam-recycling equipment, but can form screen layer around fuel oil when steam flow rate is excessive, cause combustion chamber to stop working, the operation of combustion engine is caused to having a strong impact on.
Summary of the invention
The purpose of this utility model is to provide a kind of multistage dual fuel nozzle for chemical regenerative cycle adopting steam and reformed gas multi-stage jet technology.
The purpose of this utility model is achieved in that
A kind of multistage dual fuel nozzle for chemical regenerative cycle of the utility model, it is characterized in that: comprise working connection duct wall, auxiliary oil circuit duct wall, gas channels assembly, auxiliary oil circuit duct wall inside is hollow structure, its hollow structure forms auxiliary oil circuit passage, working connection install pipeline is at auxiliary oil circuit pipeline external, main oil channel channel is formed between working connection pipeline and auxiliary oil circuit pipeline, the end of auxiliary oil circuit passage sets gradually spring apical ring, spring, auxiliary oil circuit cyclone, the port of export of working connection duct wall and auxiliary oil circuit duct wall is spout, gas channels assembly comprises gas circuit straight tube, gas circuit bend pipe, outer gas circuit tube wall, middle level gas circuit tube wall, internal layer gas circuit tube wall, gas circuit straight tube is connected by gas circuit bend pipe reducing seat with gas circuit bend pipe, gas circuit bend pipe is arranged on working connection duct wall by nozzle mount pad, it is outside that internal layer gas circuit tube wall is arranged on working connection duct wall, it is outside that middle level gas circuit tube wall is arranged on internal layer gas circuit tube wall, it is outside that outer gas circuit tube wall is arranged on middle level gas circuit tube wall, internal layer gas channels is formed between internal layer gas circuit tube wall and working connection duct wall, middle level gas channels is formed between middle level gas circuit tube wall and internal layer gas circuit tube wall, outer gas channels is formed between outer gas circuit tube wall and middle level gas circuit tube wall, the outlet of spout is pointed in the outlet of internal layer gas channels, gas channels end, middle level is venturi-type structure, internal layer gas channels, the entrance of middle level gas channels and outer gas channels all communicates with gas circuit bend pipe.
The utility model can also comprise:
1, the angle of middle level gas circuit tube wall end outer wall and spout axis is 40 ~ 90 degree.
2, the angle of internal layer gas circuit tube wall end and spout axis is 0 ~ 60 degree.
3, internal layer gas circuit tube wall is provided with swirl vane, the number of swirl vane is 4 ~ 8, and the angle of swirl vane is 0 ~ 75 degree, and swirl vane rotation direction is identical with the rotation direction of auxiliary oil circuit cyclone or contrary.
Advantage of the present utility model is: the utility model have employed gas channels multilayer placement technique, like this when carrying out water vapour re-injection, stable Central backflow area can be formed in combustion chamber, enhance the blending between steam and air, fuel oil burns in humid air environment, reduce combustion chamber discharge, avoid the generation of flame-out phenomenon; When carrying out gas fuel combustion, gaseous fuel can make full use of head of combustion chamber space, be evenly distributed, the existence of Central backflow area simultaneously strengthens the blending burning between air and gaseous fuel, improve efficiency of combustion, shorten flame, improve the uniformity of combustor exit temperature field, reduce nozzle head temperature.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is head partial sectional view of the present utility model;
Fig. 3 is the vertical section schematic diagram of the utility model middle level gas circuit tube wall;
Fig. 4 is the vertical section schematic diagram of the utility model internal layer gas circuit tube wall.
Detailed description of the invention
Below in conjunction with accompanying drawing citing, the utility model is described in more detail:
Composition graphs 1 ~ 4, dual fuel nozzle of the present utility model mainly comprises auxiliary oil circuit pipeline 1, cutting ferrule A2, working connection pipeline 3, cutting ferrule B4, oil circuit cutting ferrule base 5, nozzle mount pad 6, gas circuit bend pipe 7, outer gas circuit connector 8, outer gas circuit tube wall 9, middle level gas circuit tube wall 10, internal layer gas circuit tube wall 11, working connection head tube wall 12, auxiliary oil circuit head tube wall 13, auxiliary oil circuit cyclone 14, spring 15, spring apical ring 16, pad A17, pad B18, gas circuit bend pipe reducing seat 19, gas circuit straight tube 20, ring flange 21.
Middle level gas circuit tube wall 10 is arranged on outer gas circuit tube wall 9 li, internal layer gas circuit tube wall 11 is arranged on middle level gas circuit tube wall 10 li, working connection head tube wall 12 is arranged on internal layer gas circuit tube wall 11 li, auxiliary oil circuit head tube wall 13 is arranged on working connection head tube wall 12 li, outer gas channels is formed between outer gas circuit tube wall 9 and middle level gas circuit tube wall 10, middle level gas channels is formed between middle level gas circuit tube wall 10 and internal layer gas circuit tube wall 11, internal layer gas channels is formed between internal layer gas circuit tube wall 11 and working connection head tube wall 12, main oil channel channel 3 is formed between working connection head tube wall 12 and auxiliary oil circuit head tube wall 13, auxiliary oil circuit head tube wall 13 li forms auxiliary oil circuit pipeline 1.
The angle of dual fuel nozzle middle level gas circuit tube wall 10 end outer wall and nozzle axis is 40 ~ 90 degree.
Gas circuit tube wall 10 end, dual fuel nozzle middle level inwall is set to venturi-type structure.
Internal layer gas circuit tube wall 11 end of dual fuel nozzle and the angle of nozzle axis are 0 ~ 60 degree.
The internal layer gas circuit tube wall 11 of dual fuel nozzle is provided with swirl vane.
Swirl vane rotation direction is identical with the rotation direction of auxiliary oil circuit cyclone 14 or contrary.
The number of swirl vane is 4 ~ 8.
The angle of swirl vane is 0 ~ 75 degree.
The course of work of the dual fuel nozzle designed by the utility model is four kinds of situations altogether: liquid fuel sprays, and liquid fuel and water vapour spray, and liquid fuel and gaseous fuel spray, and gaseous fuel sprays.
The course of injection of nozzle is as follows:
1, for liquid fuel, when operating mode is lower, liquid fuel enters combustion chamber through auxiliary oil circuit spout after passing through the auxiliary oil circuit passage be made up of auxiliary oil circuit pipeline 1, spring apical ring 16, spring 15, auxiliary oil circuit cyclone 14 and auxiliary oil circuit head tube wall 13; When operating mode height, enter combustion chamber through working connection spout after part liquid fuel passes through the main oil channel channel be made up of working connection pipeline 3, auxiliary oil circuit pipeline 1, working connection head tube wall 12 and auxiliary oil circuit head tube wall 13, a part of liquid fuel enters combustion chamber through auxiliary oil circuit spout after passing through the auxiliary oil circuit passage be made up of auxiliary oil circuit pipeline 1, spring apical ring 16, spring 15, auxiliary oil circuit cyclone 14 and auxiliary oil circuit head tube wall 13.
2, water vapour and gaseous fuel share same passage, enter into combustion chamber by gas spout after the gas channels consisted of gas circuit straight tube 20, gas circuit bend pipe reducing seat 19, gas circuit bend pipe 7, oil circuit cutting ferrule base 5, working connection pipeline 3, pad B18, outer gas circuit connector 8, outer gas circuit tube wall 9, middle level gas circuit tube wall 10, internal layer gas circuit tube wall 11 and working connection head tube wall 12, fuel gas passage carries out water vapour re-injection when not supply gas fuel.
By gas channels being arranged to the mode of three layers, make dual fuel nozzle of the present utility model when using fuel oil, fuel oil can blending quick with air, solve the shielding problem of water vapour for fuel oil, prevent the generation of flame-out phenomenon, and water vapour also can carry out quick blending with air after the re-injection of multi-stage jet mode, form humid air environment, reduce discharge; Dual fuel nozzle of the present utility model is when operating on gaseous fuel, gaseous fuel adopts the mode of multi-stage jet, take full advantage of head of combustion chamber space, to accelerate and blending between air is burnt, improve efficiency of combustion, shorten the length of flame, improve combustor exit temperature field uniformity, avoid nozzle head overheated.
When the utility model ensure that on the one hand steam-recycling, fuel oil can blending quick with air, reaches oil inflame and does not stop working, reduce the object of discharge; Enhance the blending of air and fuel room on the other hand when carrying out gas fuel combustion, fuel distribution is reasonable, improves efficiency of combustion, shortens the length of flame, improve combustor exit temperature field uniformity, reduce nozzle head temperature.
Claims (5)
1. the multistage dual fuel nozzle for chemical regenerative cycle, it is characterized in that: comprise working connection duct wall, auxiliary oil circuit duct wall, gas channels assembly, auxiliary oil circuit duct wall inside is hollow structure, its hollow structure forms auxiliary oil circuit passage, working connection install pipeline is at auxiliary oil circuit pipeline external, main oil channel channel is formed between working connection pipeline and auxiliary oil circuit pipeline, the end of auxiliary oil circuit passage sets gradually spring apical ring, spring, auxiliary oil circuit cyclone, the port of export of working connection duct wall and auxiliary oil circuit duct wall is spout, gas channels assembly comprises gas circuit straight tube, gas circuit bend pipe, outer gas circuit tube wall, middle level gas circuit tube wall, internal layer gas circuit tube wall, gas circuit straight tube is connected by gas circuit bend pipe reducing seat with gas circuit bend pipe, gas circuit bend pipe is arranged on working connection duct wall by nozzle mount pad, it is outside that internal layer gas circuit tube wall is arranged on working connection duct wall, it is outside that middle level gas circuit tube wall is arranged on internal layer gas circuit tube wall, it is outside that outer gas circuit tube wall is arranged on middle level gas circuit tube wall, internal layer gas channels is formed between internal layer gas circuit tube wall and working connection duct wall, middle level gas channels is formed between middle level gas circuit tube wall and internal layer gas circuit tube wall, outer gas channels is formed between outer gas circuit tube wall and middle level gas circuit tube wall, the outlet of spout is pointed in the outlet of internal layer gas channels, gas channels end, middle level is venturi-type structure, internal layer gas channels, the entrance of middle level gas channels and outer gas channels all communicates with gas circuit bend pipe.
2. a kind of multistage dual fuel nozzle for chemical regenerative cycle according to claim 1, is characterized in that: the angle of middle level gas circuit tube wall end outer wall and spout axis is 40 ~ 90 degree.
3. a kind of multistage dual fuel nozzle for chemical regenerative cycle according to claim 1 and 2, is characterized in that: the angle of internal layer gas circuit tube wall end and spout axis is 0 ~ 60 degree.
4. a kind of multistage dual fuel nozzle for chemical regenerative cycle according to claim 1 and 2, it is characterized in that: internal layer gas circuit tube wall is provided with swirl vane, the number of swirl vane is 4 ~ 8, the angle of swirl vane is 0 ~ 75 degree, and swirl vane rotation direction is identical with the rotation direction of auxiliary oil circuit cyclone or contrary.
5. a kind of multistage dual fuel nozzle for chemical regenerative cycle according to claim 3, it is characterized in that: internal layer gas circuit tube wall is provided with swirl vane, the number of swirl vane is 4 ~ 8, the angle of swirl vane is 0 ~ 75 degree, and swirl vane rotation direction is identical with the rotation direction of auxiliary oil circuit cyclone or contrary.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520614930.6U CN204853553U (en) | 2015-08-14 | 2015-08-14 | A multistage dual fuel nozzle for chemical regenerative cycle |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520614930.6U CN204853553U (en) | 2015-08-14 | 2015-08-14 | A multistage dual fuel nozzle for chemical regenerative cycle |
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CN204853553U true CN204853553U (en) | 2015-12-09 |
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Family Applications (1)
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CN201520614930.6U Withdrawn - After Issue CN204853553U (en) | 2015-08-14 | 2015-08-14 | A multistage dual fuel nozzle for chemical regenerative cycle |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105066176A (en) * | 2015-08-14 | 2015-11-18 | 哈尔滨工程大学 | Multi-level double-fuel nozzle for chemical regenerative cycle |
-
2015
- 2015-08-14 CN CN201520614930.6U patent/CN204853553U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105066176A (en) * | 2015-08-14 | 2015-11-18 | 哈尔滨工程大学 | Multi-level double-fuel nozzle for chemical regenerative cycle |
CN105066176B (en) * | 2015-08-14 | 2017-05-24 | 哈尔滨工程大学 | Multi-level double-fuel nozzle for chemical regenerative cycle |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20151209 Effective date of abandoning: 20170524 |
|
AV01 | Patent right actively abandoned |