CN215951380U - Ignition combustion device of W flame boiler - Google Patents

Abstract

The utility model provides a W flame boiler ignition combustion device, which combines an oxygen-enriched combustion technology to realize that a small amount of fuel oil is used for igniting low-volatile coal powder, a hearth is heated by burning the coal powder, and the coal powder is used for burning instead of the fuel oil, thereby achieving the purpose of saving oil. The device comprises a primary air pipeline, wherein one end of the primary air pipeline is provided with an inlet for introducing primary air and coal powder, a flow guide cover is arranged in the primary air pipeline close to the inlet, the other end of the primary air pipeline is provided with an outlet, two sides of the outlet are respectively and correspondingly connected with inlets of two thick coal powder pipes, and the center of the outlet is connected with an inlet of a thin coal powder pipe; the concentrated pulverized coal burner is characterized in that a concentrated and dilute separation device, a primary combustion chamber and a secondary combustion chamber are sequentially arranged in the concentrated pulverized coal pipe, a pipeline necking is formed at the arrangement position of a pipeline by the concentrated and dilute separation device, an oil gun and a primary oxygen gun are arranged at the inlet of the primary combustion chamber, and a secondary oxygen gun is arranged at the inlet of the secondary combustion chamber.

Description

Ignition combustion device of W flame boiler

Technical Field

The utility model relates to the technical field of boilers and boiler energy conservation, in particular to a W flame boiler ignition combustion device.

Background

The W-shaped flame boiler is composed of lower combustion chamber and upper cooling chamber, the volume of lower combustion chamber is twice as large, and the combustion process of fuel is basically implemented in the lower combustion chamber. W flame boiler capable of stably burning V_daf6-20 anthracite and lean coal, even if can use V_dafThe design coal type of the W flame boiler is anthracite or lean coal with poor combustion characteristics, the ignition mode is designed to be ignition by a large oil gun, the large oil gun is required to be put into the ignition process to heat a hearth, the pulverized coal is put into the hearth when the temperature of the hearth can enable the pulverized coal to be stably combusted, the large oil gun is gradually withdrawn, the ignition of the boiler is completed, and the fuel consumption is high in the ignition process.

In the prior art, in order to save fuel oil, a common scheme is to install an oil-saving ignition burner, the common oil-saving ignition burner comprises a micro-oil ignition burner and a plasma ignition burner, but the micro-oil ignition burner and the plasma ignition burner have lower power and cannot ignite anthracite and lean coal with lower volatile content, and the W flame boiler is designed to be anthracite or lean coal with poorer combustion characteristics, so the micro-oil ignition burner and the plasma ignition burner are not suitable for the W flame boiler, and the number of ignition burners matched with the W flame boiler is small at present.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides a W flame boiler ignition combustion device, which is combined with an oxygen-enriched combustion technology to realize that a small amount of fuel oil is used for igniting low-volatile coal powder, a hearth is heated by burning the coal powder, and the combustion of the coal powder is used for replacing the fuel oil to achieve the purpose of saving oil.

In order to achieve the purpose, the utility model provides the following technical scheme:

an ignition combustion device of a W flame boiler comprises,

the device comprises a primary air pipeline, a primary air pipe, a flow guide cover, a primary air pipe, a primary coal dust pipe and a secondary air pipe, wherein one end of the primary air pipeline is provided with an inlet for introducing primary air and coal dust, the inner part of the primary air pipeline, which is close to the inlet, is provided with the flow guide cover, the other end of the primary air pipeline is provided with an outlet, two sides of the outlet are respectively and correspondingly connected with inlets of two thick coal dust pipes, and the center of the outlet is connected with the inlet of a thin coal dust pipe;

the concentrated pulverized coal burner is characterized in that a concentrated and dilute separation device, a primary combustion chamber and a secondary combustion chamber are sequentially arranged in the concentrated pulverized coal pipe, a pipeline necking is formed at the arrangement position of a pipeline by the concentrated and dilute separation device, an oil gun and a primary oxygen gun are arranged at the inlet of the primary combustion chamber, and a secondary oxygen gun is arranged at the inlet of the secondary combustion chamber.

Preferably, the inside of the primary air pipeline is further provided with a guide vane, and the guide vane is located between the guide cover and the outlet of the primary air pipeline.

Preferably, the oil gun is an atomizing oil gun.

Preferably, the nozzle direction of the oil gun is parallel to the arrangement direction of the dense pulverized coal pipe.

Preferably, the nozzle directions of the primary oxygen lance and the secondary oxygen lance are vertical to the arrangement direction of the concentrated coal powder pipe.

Preferably, the cross section of the diversion cover is inverted V-shaped.

Preferably, the device further comprises a connecting pipe, and two ends of the connecting pipe are respectively connected with the outlet of the primary air pipeline and the inlet of the concentrated pulverized coal pipe.

Preferably, the outlet of the concentrated pulverized coal pipe is positioned above the outlet of the light pulverized coal pipe or the outlet of the concentrated pulverized coal pipe and the outlet of the light pulverized coal pipe are arranged at the same level.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model provides a W flame boiler ignition combustion device, which comprises a flow guide cover for primarily shunting primary air coal dust airflow, wherein most large coal dust particles are distributed around a primary air pipeline under the impact action of the flow guide cover, the rest small coal dust particles continuously flow along a middle pipeline after flowing through the flow guide cover to form a coal dust airflow distribution state with thick periphery and thin middle, primary classification is completed, most thick-phase coal dust airflow continuously flows along thick coal dust pipes at two sides of an outlet, wherein a thick-thin separation device for secondary separation is arranged in each thick coal dust pipe, a pipeline contraction opening is formed in each thick coal dust pipe, the flowing thick-phase coal dust airflow is accelerated and then shunted again to form a coal dust airflow distribution state with thin periphery and thick middle, and the coal dust airflow with higher middle concentration sequentially enters a primary combustion chamber and a secondary combustion chamber to be combusted in an oxygen-enriched atmosphere, the high-temperature flame is formed, the gradual ignition of the pulverized coal is realized, the energy is gradually amplified, in the whole ignition process, the pulverized coal can be ignited in the primary combustion chamber only by providing part of fuel oil by the oil gun, the combustion intensity of the fuel oil can be enhanced due to the oxygen-enriched atmosphere, and the ignition temperature of the pulverized coal is reduced, so the pulverized coal can be ignited without consuming excessive fuel oil, and along with the gradual distribution of the pulverized coal, after the primary pulverized coal is ignited, the subsequent rest combustion operation is not needed, the gradual ignition between the pulverized coal can be realized, the energy is saved, the energy is overlapped and amplified, and the ignition efficiency of a boiler is improved.

The primary combustion chamber and the secondary combustion chamber are respectively provided with the oxygen lances, so that sufficient oxygen-enriched atmosphere can be provided, the oxygen-enriched gas can enhance the combustion strength of the fuel, improve the burn-off rate of the fuel, improve the flame temperature, improve the combustion characteristics of the low-volatile coal dust, reduce the ignition temperature and burn-off temperature of the coal dust, enhance the combustion of the coal dust and promote the burn-off and ignition of the low-volatile coal dust.

Furthermore, the inside of the primary air pipeline is also provided with a guide vane which is positioned between the guide cover and the outlet of the primary air pipeline, the primary air coal dust airflow in the utility model is primarily divided and then continuously flows downwards through the guide vane, the first light-phase coal dust airflow at the middle part rotates after flowing through the guide vane, the coal dust particles move to the outer side of the pipeline under the action of centrifugal force, the concentration separation is further strengthened, and the distribution state of the coal dust airflow with thick periphery and light middle is formed.

Furthermore, the outlet of the thick pulverized coal pipe is positioned above the outlet of the thin pulverized coal pipe or the outlet of the thick pulverized coal pipe and the outlet of the thin pulverized coal pipe are arranged at the same elevation, because the first thin-phase pulverized coal at the outlet of the primary air pipeline enters the thin pulverized coal pipe, the separation rate of the pulverized coal reaches more than 90% after passing through the flow guide cover and the swirl vanes, the content of the pulverized coal in the airflow of the first thin-phase pulverized coal is very low, the particle size of the pulverized coal is small, the pulverized coal with small particle size is easy to ignite, and the pulverized coal in the airflow of the thin-phase pulverized coal can be directly ignited by the flame at the outlet of the thin-phase pulverized coal pipe.

Drawings

FIG. 1 is a side view of the ignition combustion apparatus of the present invention;

FIG. 2 is a front view of the ignition combustion apparatus of the present invention;

FIG. 3 is a schematic diagram of the position of an ignition combustion device of a W flame boiler in the embodiment of the utility model.

In the figure, an ignition combustion device 100, a primary air pipeline 1, a flow guide cover 2, a flow guide vane 3, a dense coal powder pipe 4, a dilute coal powder pipe 5, an oil gun 6, a dense-dilute separation device 7, a primary combustion chamber 8, a primary oxygen gun 9, a secondary oxygen gun 10, a secondary combustion chamber 11 and a boiler 12.

Detailed Description

The present invention will now be described in further detail with reference to specific examples, which are intended to be illustrative, but not limiting, of the utility model.

As shown in fig. 1 and 2, an ignition combustion apparatus for a W-flame boiler according to the present invention comprises,

the device comprises a primary air pipeline 1, wherein one end of the primary air pipeline 1 is provided with an inlet for introducing primary air and pulverized coal, a flow guide cover 2 is arranged in the primary air pipeline 1 close to the inlet, the other end of the primary air pipeline 1 is provided with an outlet, two sides of the outlet are respectively and correspondingly connected with inlets of two dense pulverized coal pipes 4, and the center of the outlet is connected with an inlet of a light pulverized coal pipe 5;

the inside of dense coal powder pipe 4 has arranged dense-dilute separator 7, one-level combustion chamber 8 and second grade combustion chamber 11 in proper order, and dense-dilute separator 7 forms the pipeline throat in the department of arranging of pipeline, and the entry of one-level combustion chamber 8 sets up oil gun 6 and one-level oxygen rifle 9, and the entry of second grade combustion chamber 11 sets up second grade oxygen rifle 10.

The utility model provides a W flame boiler ignition combustion device, which comprises a flow guide cover 2 for primarily shunting primary air coal dust airflow, wherein most large coal dust particles are distributed around a primary air pipeline 1 under the impact action of the flow guide cover 2, the rest small coal dust particles continuously flow along an intermediate pipeline after flowing through the flow guide cover 2 to form a coal dust airflow distribution state with thick periphery and thin middle, primary classification is completed, most thick-phase coal dust airflow continuously flows along thick coal dust pipes 4 at two sides of an outlet, a thick-thin separation device 7 for secondary separation is arranged in each thick coal dust pipe 4, a pipeline necking is formed in each thick coal dust pipe 4, the flowing thick-phase coal dust airflow is accelerated and then shunted again to form a coal dust airflow distribution state with thin periphery and thick middle, the coal dust airflow with higher middle concentration sequentially enters a primary combustion chamber 8 and a secondary combustion chamber 11 to be combusted under an oxygen-enriched atmosphere, high-temperature flame is formed, gradual ignition of pulverized coal is achieved, energy is gradually amplified, in the whole ignition process, the pulverized coal can be ignited in the primary combustion chamber 8 only by the oil gun 6 providing part of fuel oil, the combustion intensity of the fuel oil can be enhanced due to the oxygen-rich atmosphere, and the ignition temperature of the pulverized coal is reduced, so that the pulverized coal can be ignited without consuming excessive fuel oil, and along with gradual distribution of the pulverized coal, after the primary pulverized coal is ignited, other combustion operations are not needed subsequently, gradual ignition of the pulverized coal can be achieved, energy is saved, energy is overlapped and amplified, and the ignition efficiency of a boiler is improved.

The utility model is provided with oxygen lances in the first-stage combustion chamber 8 and the second-stage combustion chamber 11 respectively, which can provide sufficient oxygen-enriched atmosphere, and the oxygen-enriched combustion technology improves the combustion characteristics of the pulverized coal by increasing the oxygen concentration of the combustion-supporting gas and adopting oxygen-enriched air with the oxygen concentration (21%) higher than that of air as the combustion-supporting gas. The oxygen-enriched gas can strengthen the combustion intensity of the fuel, improve the burnout rate of the fuel and improve the flame temperature. Especially when the oxygen-rich gas acts on the low-volatile coal dust, the combustion characteristic of the coal dust can be improved, the ignition temperature and the burnout temperature of the coal dust are reduced, the combustion of the coal dust is enhanced, and the burnout and the ignition of the low-volatile coal dust can be promoted.

The utility model grades the primary air coal dust airflow step by step, and can reduce the abrasion of the downstream rotational flow blades.

Furthermore, the inside of the primary air pipeline 1 is also provided with a guide vane 3, the guide vane 3 is positioned between the guide cover 2 and the outlet of the primary air pipeline 1, the primary air pulverized coal airflow in the utility model is primarily divided and then continuously flows downwards through the guide vane 3, the first light-phase pulverized coal airflow at the middle part rotates after flowing through the guide vane 3, and the pulverized coal particles move to the outer side of the pipeline under the action of centrifugal force, so that the concentration separation is further strengthened, and the pulverized coal airflow distribution state with thick periphery and light middle is formed.

Preferably, the oil gun 6 is an atomizing oil gun, and an oil gun with a similar functional structure can also be used.

In this embodiment, the nozzle direction of the oil gun 6 is parallel to the arrangement direction of the dense pulverized coal pipe 4, so that the resistance and loss in the airflow flowing direction are reduced.

In the embodiment, the nozzle directions of the first-stage oxygen lance 9 and the second-stage oxygen lance 10 are perpendicular to the arrangement direction of the dense coal powder pipe 4, so that the nozzles can be more fully contacted with coal powder airflow, and the combustion-supporting strengthening effect is better.

In this embodiment, the cross section of the flow guide cover 2 is inverted v-shaped, and flow guide covers 2 in other fluid shapes can be adopted, so that the air flow can be divided into pulverized coal air flow distribution states with thick periphery and thin middle.

Furthermore, the device also comprises a connecting pipe, and the two ends of the connecting pipe are respectively connected with the outlet of the primary air pipeline 1 and the inlet of the concentrated pulverized coal pipe 4.

Still further, the connecting pipe adopts the elbow structure, arranges the connecting pipe of suitable shape according to actual conditions and position, and the purpose is conveniently to connect primary air pipeline 1 and dense buggy pipe 4.

Wherein, the oil gun body can be set up on the outer wall of connecting pipe or dense pulverized coal pipe 4, and the nozzle of oil gun 6 stretches into dense pulverized coal pipe 4's inside and sets up the entrance at one-level combustion chamber 8, can arrange according to particular case.

Furthermore, the outlet of the concentrated pulverized coal pipe 4 is positioned above the outlet of the light pulverized coal pipe 5 or the outlet of the concentrated pulverized coal pipe 4 and the outlet of the light pulverized coal pipe 5 are arranged at the same elevation, because the first light-phase pulverized coal at the outlet of the primary air pipeline 1 enters the light pulverized coal pipe 5 and passes through the flow guide cover 2 and the swirl vanes, the separation rate of the pulverized coal reaches over 90 percent, the content of the pulverized coal in the airflow of the first light-phase pulverized coal is very small, the particle size of the pulverized coal is small, the pulverized coal with small particle size is easy to ignite, and the pulverized coal in the airflow of the light-phase pulverized coal can be directly ignited by the flame at the outlet of the light-phase pulverized coal pipe.

The utility model provides an ignition combustion device of a W flame boiler, which comprises the following steps in the using process,

the primary air pulverized coal airflow enters a primary air pipeline 1 and is initially divided into a middle first light-phase pulverized coal airflow and a peripheral first concentrated-phase pulverized coal airflow through a flow guide cover 2;

the first dense-phase coal dust airflow enters thick coal dust pipes 4 which are correspondingly connected at two sides, and the first light-phase coal dust airflow enters a light coal dust pipe 5 which is connected at the center;

the first dense-phase coal dust airflow firstly flows through a dense-dilute separation device 7 and is accelerated at the reducing part of the pipeline and then divided into a middle second dense-phase coal dust airflow and a peripheral second dilute-phase coal dust airflow;

the second concentrated phase coal dust airflow enters a primary combustion chamber 8, and fuel oil provided by an oil gun 6 is combusted under the oxygen-enriched condition provided by a primary oxygen gun 9 to ignite second concentrated phase coal dust in the second concentrated phase coal dust airflow to form second concentrated phase coal dust flame;

the second dense-phase pulverized coal flame enters a secondary combustion chamber 11, and a secondary oxygen lance 10 provides oxygen-enriched gas to strengthen the combustion of the second dense-phase pulverized coal flame to form dense-phase pulverized coal high-temperature flame;

the second light-phase coal powder airflow flows through the outer side of the primary combustion chamber 8 and enters the secondary combustion chamber 11, and is ignited by the high-temperature flame of the dense-phase coal powder, so that the W flame boiler is ignited and combusted.

The utility model provides an ignition combustion method of a W flame boiler, which comprises the following specific implementation steps when in use:

the primary air carries pulverized coal airflow to enter a primary air pipeline 1, the primary air pulverized coal airflow flows through the flow guide cover 2, the flow guide cover 2 is in a fluid shape, partial large-particle pulverized coal particles are distributed around the pipeline under the impact action of the flow guide cover 2, a small part of pulverized coal particles continuously flow along the middle pipeline after flowing through a through hole in the middle of the flow guide cover, the primary air pulverized coal airflow is preliminarily divided into a state of being thick around and light in the middle, and the abrasion of a downstream swirl vane is reduced.

The primary air coal dust airflow continuously flows downwards through the guide vanes 3, the middle light coal dust airflow rotates after flowing through the guide vanes 3, coal dust particles move to the outer side of the pipeline under the action of centrifugal force, and the concentration separation is further strengthened to form a state that the periphery is concentrated and the middle is light. Wherein, the first dense-phase coal dust airflow enters 2 dense coal dust pipes 4 arranged at the outer side of the primary air pipeline 1, and the first light-phase coal dust airflow enters a light coal dust pipe 5 arranged at the center of the primary air pipeline 1.

A dense-dilute separation device 7, an atomized oil gun 6, a primary combustion chamber 8, a secondary combustion chamber 11, a primary oxygen gun 9 and a secondary oxygen gun 10 are sequentially arranged in each of the 2 dense-coal-powder pipes 4, dense-phase coal powder flows through the dense-dilute separation device 7, a throat is formed at the dense-dilute separation device 7, a first dense-phase coal powder airflow is accelerated to form a state of dense middle and dilute periphery, and a second dense-phase coal powder airflow in the middle enters the primary combustion chamber 8.

An atomized oil gun and a primary oxygen gun 9 are arranged at the inlet of the primary combustion chamber 8, the combustion intensity of fuel oil can be enhanced by the oxygen-enriched atmosphere, the ignition temperature of the pulverized coal is reduced, and high-temperature flame formed by combustion of the fuel oil ignites second dense-phase pulverized coal to form second dense-phase pulverized coal flame.

The second dense-phase pulverized coal flame enters a secondary combustion chamber 11, a secondary oxygen lance 10 is arranged at the inlet of the secondary combustion chamber 11, and the oxygen-rich gas strengthens the combustion of the second dense-phase pulverized coal flame to form dense-phase pulverized coal high-temperature flame.

The second light-phase coal powder flows through the outer side of the primary combustion chamber 8 and enters the secondary combustion chamber 11, and the second light-phase coal powder is ignited by the high-temperature flame of the dense-phase coal powder in the secondary combustion chamber 11, so that the gradual ignition of the coal powder is realized.

Further, after entering the light coal powder pipe 5, the first light-phase coal powder airflow flows through the light coal powder pipe 5 and is ignited by the high-temperature flame of the thick-phase coal powder at the outlet of the thick coal powder pipe 4 at the outlet of the light coal powder pipe 5, so that the ignition strength is further enhanced, and the ignition combustion device is simplified as much as possible.

In the present embodiment, as shown in fig. 3, the ignition combustion apparatus 100 is provided on two arches of the W flame boiler 12.

Claims (8)

1. An ignition combustion device of a W flame boiler is characterized by comprising,

the device comprises a primary air pipeline (1), wherein one end of the primary air pipeline (1) is provided with an inlet for introducing primary air and pulverized coal, a flow guide cover (2) is arranged in the primary air pipeline (1) close to the inlet, the other end of the primary air pipeline (1) is provided with an outlet, the two sides of the outlet are respectively and correspondingly connected with inlets of two thick pulverized coal pipes (4), and the center of the outlet is connected with an inlet of a light pulverized coal pipe (5);

the concentrated pulverized coal burner is characterized in that a concentrated and dilute separation device (7), a primary combustion chamber (8) and a secondary combustion chamber (11) are sequentially arranged inside the concentrated pulverized coal pipe (4), the concentrated and dilute separation device (7) forms a pipeline necking at the arrangement position of a pipeline, an oil gun (6) and a primary oxygen gun (9) are arranged at an inlet of the primary combustion chamber (8), and a secondary oxygen gun (10) is arranged at an inlet of the secondary combustion chamber (11).

2. A W-flame boiler ignition combustion device according to claim 1, characterized in that the inside of the primary air duct (1) is further provided with guide vanes (3), and the guide vanes (3) are located between the guide cover (2) and the outlet of the primary air duct (1).

3. A W-flame boiler ignition combustion arrangement as claimed in claim 1, characterized in that the oil lance (6) is an atomizing oil lance.

4. A W-flame boiler ignition combustion apparatus as claimed in claim 1, characterized in that the nozzle direction of said oil lance (6) is parallel to the arrangement direction of the rich pulverized coal pipe (4).

5. The W-flame boiler ignition combustion device as claimed in claim 1, wherein the nozzle direction of the primary oxygen lance (9) and the secondary oxygen lance (10) is perpendicular to the arrangement direction of the rich coal pipe (4).

6. A W-flame boiler ignition combustion apparatus as claimed in claim 1, characterized in that the cross-section of the deflector cover (2) is inverted v-shaped.

7. The W-flame boiler ignition combustion device as claimed in claim 1, further comprising a connecting pipe, wherein both ends of the connecting pipe are respectively connected with the outlet of the primary air pipeline (1) and the inlet of the dense pulverized coal pipe (4).

8. A W-flame boiler ignition combustion apparatus as claimed in claim 1, characterized in that the outlet of the rich pulverized coal pipe (4) is located above the outlet of the lean pulverized coal pipe (5) or the outlet of the rich pulverized coal pipe (4) is arranged at the same level as the outlet of the lean pulverized coal pipe (5).

Images