CN204786354U - Combustion system of wall opposed firing boiler security and economic nature around improving - Google Patents
Combustion system of wall opposed firing boiler security and economic nature around improving Download PDFInfo
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- CN204786354U CN204786354U CN201520500091.5U CN201520500091U CN204786354U CN 204786354 U CN204786354 U CN 204786354U CN 201520500091 U CN201520500091 U CN 201520500091U CN 204786354 U CN204786354 U CN 204786354U
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- air nozzle
- air
- fire air
- direct current
- fire
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E20/00—Combustion technologies with mitigation potential
- Y02E20/34—Indirect CO2mitigation, i.e. by acting on non CO2directly related matters of the process, e.g. pre-heating or heat recovery
Abstract
The utility model discloses a combustion system of wall opposed firing boiler security and economic nature around improving, including primary air fan, overfire air fan, air heater, furnace, a plurality of direct current after -flame wind spout, a plurality of first after -flame wind spout, a plurality of second after -flame wind spouts and a plurality of cyclone burner. The utility model discloses because measuring the deviation, the increase of flying dust combustible substance, water -cooling wall coking, high temperature corrosion, furnace exit both sides oxygen that the air degree of depth caused in grades reaches the difficult scheduling problem of steam temperature control greatly in the wall opposed firing boiler around can effectually solving.
Description
Technical field
The utility model belongs to steam power plant field, relates to a kind of combustion system, is specifically related to a kind of combustion system improving Opposite Firing Boiler security and economy.
Background technology
At present, the combustion system in large-scale pulverized coal firing boiler mainly adopts corner tangential firing and opposed firing burning.Opposite Firing Boiler, because of its advantage in combustion stability and heating surface layout, has become one of primary combustion mode that super critical boiler and super critical boiler adopt.In opposed firing combustion system, turbulent burner is arranged on burner hearth front wall and rear water wall, and each burner organizes separately air distribution, flame relatively independent; Do not interfere with each other between the flame of each burner on same face wall, be folded to after the burner flame afterbody on front-back wall liquidates in the middle part of burner hearth and upwards flow.This combustion system has the comparatively uniform advantage of heat load distribution on furnace profile, but compared with the Terms of Corner Tangential Combustion under same burner hearth after-flame height, the later stage inner flue gas of the stove mixing of which is poor, flue gas stroke is relatively short, if combustion air can not feed in time and fully mix with fuel, then can postpone the combustion process of fuel and affect burner hearth heat absorption.
In order to realize the environmental protection of boiler, economy, Effec-tive Function, usually need to adopt the mode of Researched of Air Staging Combustion Burning Pulverized Coal to reduce NO in Opposite Firing Boiler
xdischarge capacity.Researched of Air Staging Combustion Burning Pulverized Coal mode refers to sends the air classification needed for boiler combustion into burner hearth, adopts the burner hearth of which to be followed successively by primary zone, reducing zone and burning-out zone three part from bottom to up.Primary zone and burner region, send into 70% ~ 90% of fuel combustion Air Quantity Required, fuel burns under anoxic conditions, can not only control thermal NO
xgeneration, can also reduce part of fuel type NO
x; Reducing zone between primary zone and burning-out zone, in this region, primary zone generate NO
xby the C that non-complete combustion of fuel produces
xh
y, CO, coal tar and H
2n is reduced to Deng reducing substances
2; Burning-out zone sends into the surplus air needed for complete combustion of fuel, and the uncombusted component of fuel is burnt completely under the excess oxygen in this region.
Although adopt air staged combustion technology effectively can reduce NO
xdischarge capacity, but also bring the rising of boiler fly ash combustible, furnace wall cooling coking, high temperature corrosion, overtemperature and Stream temperature degree and be difficult to the problems such as control, especially along with NO
xthe raising day by day of emission request, power plant is in order to reduce NO further
xdischarge capacity, while burner reconstruction is carried out to original opposed firing combustion system, the degree of continuous intensification air classification, reduces the oxygen amount of main combustion zone and reducing zone, make the rising of boiler fly ash combustible, water-cooling wall coking, overtemperature and high temperature corrosion problem more outstanding.
Although industry solves the problems referred to above by changing burner and burnout degree form to Opposite Firing Boiler, there is not a kind of effective mode can solve the problem of the fly ash combustible material rising caused because of air deep-graded in opposed firing combustion system boiler, water-cooling wall coking, high temperature corrosion and control of steam temperature at present yet simultaneously.
Utility model content
The purpose of this utility model is the shortcoming overcoming above-mentioned prior art, provide a kind of combustion system improving Opposite Firing Boiler security and economy, the problems such as the fly ash combustible material rising that this system produces after effectively can solving the transformation of Opposite Firing Boiler low NO, water-cooling wall coking, high temperature corrosion and control of steam temperature are difficult.
For achieving the above object, the combustion system of raising Opposite Firing Boiler described in the utility model security and economy comprises primary air fan, overfire air fan, air preheater, burner hearth, some direct current fire air nozzle, some first fire air nozzle, some second fire air nozzle and some turbulent burners;
The outlet of described primary air fan is divided into two-way through air preheater, and wherein a road is connected with the First air entrance of each turbulent burner, and another road is connected with the entrance of each direct current fire air nozzle;
The outlet of described overfire air fan is connected through the Secondary Air entrance of air preheater with the entrance of the first fire air nozzle, the entrance of the second fire air nozzle and turbulent burner, the outlet of turbulent burner, the first fire air nozzle outlet, the outlet of the second fire air nozzle and the outlet of direct current fire air nozzle are all connected with burner hearth inside, turbulent burner is fixed on the water-cooling wall of burner hearth front-back wall, and each direct current fire air nozzle lays respectively on the front water wall of burner hearth, on rear water wall, on left wall water-cooling wall and on right wall water-cooling wall; On the left wall water-cooling wall that each first fire air nozzle lays respectively at burner hearth and right wall water-cooling wall; On the front water wall that each second fire air nozzle lays respectively at burner hearth and rear water wall;
Described second fire air nozzle, the first fire air nozzle, direct current fire air nozzle and turbulent burner are fixed on the water-cooling wall of burner hearth from top to bottom successively, each direct current fire air nozzle some groups respectively, the center line of the air-flow that the direct current fire air nozzle in each group direct current fire air nozzle ejects is tangential on same ellipse; The air-flow that first fire air nozzle ejects is mutually vertical with the air-flow that the second fire air nozzle ejects.
Also comprise the first burnout degree air compartment, the first burnout degree controllable register, the second burnout degree air compartment, the second burnout degree controllable register, secondary air chamber and secondary air regulation baffle plate;
The outlet of described overfire air fan is divided into two-way after air preheater, secondary air chamber of wherein leading up to is connected with the Secondary Air entrance of turbulent burner, another road is connected with the first burnout degree air compartment and the second burnout degree air compartment respectively, first burnout degree air compartment and the second burnout degree air compartment are connected with the first fire air nozzle and the second fire air nozzle respectively, first burnout degree controllable register is between the first burnout degree air compartment and the first fire air nozzle, second burnout degree controllable register is between the second burnout degree air compartment and the second fire air nozzle, secondary air regulation baffle plate is between secondary air chamber and turbulent burner.
Described each turbulent burner is several rows, and the number of often going is 4-8.
The quantity of described first fire air nozzle is 4-8;
The quantity of described second fire air nozzle is 4-8.
Each direct current fire air nozzle divides some groups, and in each group direct current fire air nozzle, the quantity of direct current fire air nozzle is 4 ~ 6.
Also comprise the drive unit for driving direct current fire air nozzle to swing.
The utility model has following beneficial effect:
The combustion system of raising Opposite Firing Boiler described in the utility model security and economy operationally, primary air fan produces First air, part First air sprays into from the direct current fire air nozzle being positioned at turbulent burner top, First air at a high speed drives rising flue gas in burner hearth to rotate, make First air stronger with mixing of rising flue gas, the stroke of flue gas in stove is added because flue gas rotates to rise, thus the time of staying of fuel in stove is added, be conducive to after-flame and the burner hearth heat absorption of coal dust, the rising of furnace outlet gas temperature and desuperheating water of superheater amount can be suppressed.Meanwhile, First air sprays into burner hearth to cut oval form from each wall water-cooling wall, effectively improves the wall atmosphere near water-cooling wall, effectively prevents coking and the high temperature corrosion of water-cooling wall, reduces the oxygen amount deviation of furnace outlet both sides.The air-flow that first fire air nozzle vertical with turbulent burner ejects can eliminate the residual rotation that lower DC burnout degree brings further, and can strengthen due to lower furnace portion turbulent burner air pour burner hearth with fuel staging in the middle part of the mixing of unburnt combustible and high-temperature flue gas, and then reduce the fly ash combustible material of boiler.By direct current burnout degree, air current composition between the first burnout degree and the second burnout degree, effectively can realize reducing boiler fly ash combustible, improve wall atmosphere near water-cooling wall, the coking of prevention water-cooling wall and high temperature corrosion, reduce the oxygen amount deviation of furnace outlet both sides and control the object of steam temperature, there is good society and economic benefit.
Accompanying drawing explanation
Fig. 1 is perspective view of the present utility model;
Fig. 2 is that front-back wall of the present utility model arranges schematic diagram;
Fig. 3 is that schematic diagram put by left and right of the present utility model wall paper;
Fig. 4 be the center line of air-flow that in the utility model, direct current fire air nozzle 3 is sprayed be tangential on one oval time each direct current fire air nozzle 3 distribution map;
Fig. 5 be the center line of air-flow that in the utility model, direct current fire air nozzle 3 is sprayed be tangential on two oval time each direct current fire air nozzle 3 distribution map;
Fig. 6 is planar structure schematic diagram of the present utility model.
Wherein, 1 be burner hearth, 2 be turbulent burner spout, 3 be secondary air chamber, 7 be air preheater for secondary air regulation baffle plate, 8 be the second burnout degree air compartment, 9 be the second burnout degree controllable register, 10 be the first burnout degree air compartment, 11 is the first burnout degree controllable register, 12,13 be primary air fan, 14 be overfire air fan for direct current fire air nozzle, 4 to be the first fire air nozzle, 5 be the second fire air nozzle, 6.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail:
With reference to figure 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 6, the combustion system of raising Opposite Firing Boiler described in the utility model security and economy comprises primary air fan 13, overfire air fan 14, air preheater 12, burner hearth 1, some direct current fire air nozzle 3, some first fire air nozzle 4, some second fire air nozzle 5 and some turbulent burners 2, the outlet of primary air fan 13 is divided into two-way through air preheater 12, and wherein a road is connected with the First air entrance of each turbulent burner 2, and another road is connected with the entrance of each direct current fire air nozzle 3, the outlet of overfire air fan 14 is through the entrance of air preheater 12 and the first fire air nozzle 4, the entrance of the second fire air nozzle 5, and the Secondary Air entrance of turbulent burner 2 is connected, the outlet of turbulent burner 2, first fire air nozzle 4 exports, the outlet of the second fire air nozzle 5 and the outlet of direct current fire air nozzle (3) are all connected with burner hearth 1 inside, turbulent burner 2 is fixed on the water-cooling wall of burner hearth front-back wall, each direct current fire air nozzle 3 lays respectively on the front water wall of burner hearth, on rear water wall, on left wall water-cooling wall and on right wall water-cooling wall, on the left wall water-cooling wall that each first fire air nozzle 4 lays respectively at burner hearth and right wall water-cooling wall, on the front water wall that each second fire air nozzle 5 lays respectively at burner hearth and rear water wall, described second fire air nozzle 5, first fire air nozzle 4, direct current fire air nozzle 3 and turbulent burner 2 are fixed on the water-cooling wall of burner hearth 1 from top to bottom successively, each direct current fire air nozzle 3 some groups respectively, the center line of the air-flow that the direct current fire air nozzle 3 in each group direct current fire air nozzle 3 ejects is tangential on same ellipse, the air-flow that the air-flow that first fire air nozzle 4 ejects ejects with the second fire air nozzle 5 is mutually vertical.
It should be noted that, the utility model also comprises the first burnout degree air compartment 10, first burnout degree controllable register 11, second burnout degree air compartment 8, second burnout degree controllable register 9, secondary air chamber 6 and secondary air regulation baffle plate 7, the outlet of described overfire air fan 14 is divided into two-way after air preheater 12, secondary air chamber 6 of wherein leading up to is connected with the Secondary Air entrance of turbulent burner 2, another road is connected with the first burnout degree air compartment 10 and the second burnout degree air compartment 8 respectively, first burnout degree air compartment 10 and the second burnout degree air compartment 8 are connected with the first fire air nozzle 4 and the second fire air nozzle 5 respectively, first burnout degree controllable register 11 is between the first burnout degree air compartment 10 and the first fire air nozzle 4, second burnout degree controllable register 9 is between the second burnout degree air compartment 8 and the second fire air nozzle 5, secondary air regulation baffle plate 7 is between secondary air chamber 6 and turbulent burner 2.
Described each turbulent burner 2 is several rows, and the number of often going is 4-8; The quantity of the first fire air nozzle 4 is 4-8; The quantity of the second fire air nozzle 5 is 4-8; Each direct current fire air nozzle 3 points one group or two groups, in each group direct current fire air nozzle 3, the quantity of direct current fire air nozzle 3 is 4; The utility model also comprises the drive unit for driving direct current fire air nozzle 3 to swing.
Turbulent burner 2 is in formation primary zone, burner hearth 1 bottom, and fuel burns under anoxic conditions, not only can control thermal NO
xgeneration, can also reduce part of fuel type NO
x, combustion product rises in the first reducing zone of being formed between direct current fire air nozzle 3 and turbulent burner 2 spout, the NO that part primary zone generates
xat this section by C
xh
y, CO, coal tar and H
2n is reduced to Deng reducing substances
2, simultaneously, due to adding of High-speed DC burnout degree, strongly mix with turbulent burner 2 high-temperature flue gas produced that burns, the stroke of flue gas in stove is added because flue gas rotates to rise, add the time of staying of fuel in burner hearth 1, the after-flame and the burner hearth 1 that are conducive to coal dust absorb heat, burner hearth 1 can be suppressed to export the rising of cigarette temperature and desuperheating water of superheater amount, direct current First air sprays into burner hearth 1 to cut oval form from each wall water-cooling wall simultaneously, effectively can improve the wall atmosphere near water-cooling wall, the coking of prevention water-cooling wall and high temperature corrosion, reduce the oxygen amount deviation that burner hearth 1 exports both sides, the NO that major part primary zone generates
xby C in the second reducing zone between direct current fire air nozzle 3 and the first fire air nozzle 4
xh
y, CO, coal tar and H
2n is reduced to Deng reducing substances
2, product rises in the burning-out zone that the first fire air nozzle 4 and the second fire air nozzle 5 formed, and feeds the surplus air needed for complete combustion of fuel, remains unburnt coke and gas component is burnt completely under this region excess oxygen.
Direct current fire air nozzle 3 is arranged in each wall water-cooling wall and can bobs and weaves, effectively can improve the wall atmosphere near water-cooling wall, prevention water-cooling wall coking and high temperature corrosion, reduce the oxygen amount deviation that burner hearth 1 exports both sides, can also control effectively simultaneously to the steam temperature of boiler.The vertical design of first order burnout degree and second level fire air nozzle, the residual rotation of flue gas can be effectively reduced, and can strengthen because lower furnace portion turbulent burner 2 air pour burner hearth 1 with fuel staging in the middle part of the mixing of unburnt combustible and high-temperature flue gas, and then the fly ash combustible material of reduction boiler.
Claims (6)
1. one kind is improved the combustion system of Opposite Firing Boiler security and economy, it is characterized in that, comprise primary air fan (13), overfire air fan (14), air preheater (12), burner hearth (1), some direct current fire air nozzle (3), some first fire air nozzle (4), some second fire air nozzle (5) and some turbulent burners (2);
The outlet of described primary air fan (13) is divided into two-way through air preheater (12), wherein a road is connected with the First air entrance of each turbulent burner (2), and another road is connected with the entrance of each direct current fire air nozzle (3);
The outlet of described overfire air fan (14) is through the entrance of air preheater (12) with the first fire air nozzle (4), the entrance of the second fire air nozzle (5), and the Secondary Air entrance of turbulent burner (2) is connected, the outlet of turbulent burner (2), first fire air nozzle (4) exports, the outlet of the second fire air nozzle (5) and the outlet of direct current fire air nozzle (3) are all connected with burner hearth (1) inside, turbulent burner (2) is fixed on the water-cooling wall of burner hearth front-back wall, each direct current fire air nozzle (3) lays respectively on the front water wall of burner hearth, on rear water wall, on left wall water-cooling wall and on right wall water-cooling wall, on the left wall water-cooling wall that each first fire air nozzle (4) lays respectively at burner hearth and right wall water-cooling wall, on the front water wall that each second fire air nozzle (5) lays respectively at burner hearth and rear water wall,
Described second fire air nozzle (5), the first fire air nozzle (4), direct current fire air nozzle (3) and turbulent burner (2) are fixed on the water-cooling wall of burner hearth (1) from top to bottom successively, each direct current fire air nozzle (3) some groups respectively, the center line of the air-flow that the direct current fire air nozzle (3) in each group direct current fire air nozzle (3) ejects is tangential on same ellipse; The air-flow that the air-flow that first fire air nozzle (4) ejects ejects with the second fire air nozzle (5) is mutually vertical.
2. the combustion system of raising Opposite Firing Boiler according to claim 1 security and economy, it is characterized in that, also comprise the first burnout degree air compartment (10), the first burnout degree controllable register (11), the second burnout degree air compartment (8), the second burnout degree controllable register (9), secondary air chamber (6) and secondary air regulation baffle plate (7);
The outlet of described overfire air fan (14) is divided into two-way after air preheater (12), secondary air chamber (6) of wherein leading up to is connected with the Secondary Air entrance of turbulent burner (2), another road is connected with the first burnout degree air compartment (10) and the second burnout degree air compartment (8) respectively, first burnout degree air compartment (10) and the second burnout degree air compartment (8) are connected with the first fire air nozzle (4) and the second fire air nozzle (5) respectively, first burnout degree controllable register (11) is positioned between the first burnout degree air compartment (10) and the first fire air nozzle (4), second burnout degree controllable register (9) is positioned between the second burnout degree air compartment (8) and the second fire air nozzle (5), secondary air regulation baffle plate (7) is positioned between secondary air chamber (6) and turbulent burner (2).
3. the combustion system of raising Opposite Firing Boiler according to claim 1 security and economy, is characterized in that, described each turbulent burner (2) is several rows, and the number of often going is 4-8.
4. the combustion system of raising Opposite Firing Boiler according to claim 1 security and economy, is characterized in that,
The quantity of described first fire air nozzle (4) is 4-8;
The quantity of described second fire air nozzle (5) is 4-8.
5. the combustion system of raising Opposite Firing Boiler according to claim 1 security and economy, it is characterized in that, each direct current fire air nozzle (3) divides one group or two groups, and in each group direct current fire air nozzle (3), the quantity of direct current fire air nozzle (3) is 4 ~ 6.
6. the combustion system of raising Opposite Firing Boiler according to claim 1 security and economy, is characterized in that, also comprises the drive unit for driving direct current fire air nozzle (3) to swing.
Priority Applications (1)
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CN201520500091.5U CN204786354U (en) | 2015-07-10 | 2015-07-10 | Combustion system of wall opposed firing boiler security and economic nature around improving |
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CN201520500091.5U CN204786354U (en) | 2015-07-10 | 2015-07-10 | Combustion system of wall opposed firing boiler security and economic nature around improving |
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CN204786354U true CN204786354U (en) | 2015-11-18 |
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ID=54526400
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CN201520500091.5U Withdrawn - After Issue CN204786354U (en) | 2015-07-10 | 2015-07-10 | Combustion system of wall opposed firing boiler security and economic nature around improving |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104990069A (en) * | 2015-07-10 | 2015-10-21 | 西安热工研究院有限公司 | Combustion system improving safety and economical performance of opposite-firing boiler |
CN109681861A (en) * | 2019-02-19 | 2019-04-26 | 上海华之邦科技股份有限公司 | A kind of structurally reasonable type gas fired-boiler high efficency low NOx combustion system |
CN112833388A (en) * | 2021-01-19 | 2021-05-25 | 北京巴布科克·威尔科克斯有限公司 | Ultralow NOx combustion system of opposed firing boiler |
-
2015
- 2015-07-10 CN CN201520500091.5U patent/CN204786354U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104990069A (en) * | 2015-07-10 | 2015-10-21 | 西安热工研究院有限公司 | Combustion system improving safety and economical performance of opposite-firing boiler |
CN109681861A (en) * | 2019-02-19 | 2019-04-26 | 上海华之邦科技股份有限公司 | A kind of structurally reasonable type gas fired-boiler high efficency low NOx combustion system |
CN112833388A (en) * | 2021-01-19 | 2021-05-25 | 北京巴布科克·威尔科克斯有限公司 | Ultralow NOx combustion system of opposed firing boiler |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20151118 Effective date of abandoning: 20171222 |
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AV01 | Patent right actively abandoned |
Granted publication date: 20151118 Effective date of abandoning: 20171222 |