RU2466331C1 - Kindling coal burner - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: kindling coal burner comprises a vessel with radiating lining, at the burner's inlet there is a coaxial channel to supply dust and air mixture, in the burner body there are tangential nozzles arranged for supply of secondary air, and at the outlet end of the body there is a confuser and a coaxial cylindrical channel of tertiary air supply into the boiler's furnace, besides, in the radiating lining of the burner vessel, evenly along its circumference, there are electric heaters installed, in the centre of the dust and air mixture supply channel there is a channel of water and coal fuel supply with a nozzle of water and coal fuel, and a channel of primary air supply is arranged coaxially to the channel of the dust and air mixture supply. Electric heaters are arranged with length from the inlet of the primary air channel to the burner and to the confuser. In the coaxial channel of dust and air mixture supply and in the coaxial channel of primary air supply there are flow swirlers installed, accordingly, for dust and air mixture and primary air. In the coaxial cylindrical channel of tertiary air supply into the boiler's furnace there are rotary blades installed. Tangential nozzles of secondary air supply are installed into several rows along the length of the burner's vessel and evenly along its circumference. Output parts of tangential nozzles of secondary air supply in the burner's vessel are arranged with rectangular flat slot shape and are equipped with rotary blades.

EFFECT: invention makes it possible to provide for burning of dust coal or water coal fuel in a burner, using power for its heating.

6 cl, 2 dwg

Description

The invention relates to a power system and can be used in thermal power plants, in boiler rooms and in the furnace industry of enterprises when burning atomized coal-water fuel or dust-air mixture.

A known method of ignition of coal dust with a ring burner and a device for its implementation (US No. 4466363 A1, IPC F23D 1/00, op. 08.21.1984). This device comprises a housing with a central igniter pulverized coal burner and coaxial air and pulverized coal channels. At the end of the ignition pulverized coal burner, an electric igniter of the flame is made. Manually controlled air flow swirls are installed in the air channels.

The disadvantages of the design of this burner are the complexity of regulating the flow rates of primary and secondary air, the relative length of time during the kindling process of the burner due to the sequential ignition of the internal auxiliary burner, and then the external main one, which increases the fuel consumption for kindling, the complexity and bulky design, the possibility of slagging and burning a large number of steel cylindrical shells, as well as significant wear of the burner elements. To kindle the auxiliary burner, fuel oil or gas is used, which are expensive and scarce at many thermal power plants, and their cost is constantly growing.

The closest in technical essence and the achieved result is a kindling pulverized coal burner containing a housing with a lining, a coaxial pipe (channel) for supplying a dusty air mixture, an auxiliary liquid-fuel or gas burner (RU No. 2174649 C2, IPC F23D 1/00, op. 10.10.2001 g .). An auxiliary or gas burner is additionally installed in the burner, the mouth of the nozzle for supplying the dusty air mixture is slotted, while the auxiliary liquid fuel or gas burners are placed symmetrically with respect to the longitudinal axis of the slotted mouth of the nozzle for supplying the dusty air mixture, and the lining is made emitting. The disadvantage of this burner is the use of fuel oil or gas to heat the radiating lining of the burner for further combustion of pulverized coal. This burner is not designed to burn water-coal fuel. In many thermal power plants and boiler houses, fuel oil and gas are scarce, and their cost is constantly growing.

The technical result of the invention is to provide the combustion of pulverized coal or coal-water fuel in the burner, which uses electric energy to heat it.

The specified technical result is achieved in that in a kindling coal burner containing a housing with a radiating lining, a coaxial dust-air mixture supply channel is made at the burner inlet, tangential secondary air nozzles are made in the burner body, and a confuser and a coaxial cylindrical feed channel are made at the output end of the housing of tertiary air into the boiler furnace, according to the invention, in the radiating lining of the burner body, uniformly around its circumference, electric heaters are installed, in the center of the can In the dust-air mixture supply channel, a water-carbon fuel supply channel with a water-carbon fuel nozzle is installed, and a primary air supply channel is made coaxially to the dust-air mixture supply channel.

In addition, electric heaters are made in length from the inlet of the primary air channel to the burner and to the confuser.

In addition, in the coaxial channel for supplying the dust-air mixture and in the coaxial channel for supplying the primary air, flow swirls, respectively, of the dust-air mixture and primary air, are made.

In addition, rotary blades are installed in a coaxial cylindrical channel for supplying tertiary air to the boiler furnace.

In addition, the tangential nozzles of the secondary air supply are installed in several rows along the length of the burner body and evenly around its circumference.

In addition, the output parts of the tangential nozzles of the secondary air supply in the burner body are made of a rectangular planar slot shape and are equipped with rotary blades.

The invention is illustrated by drawings, where in Fig.1 shows a kindling coal burner in section; figure 2 is a section along aa in figure 1 (enlarged).

The kindling coal burner consists of a housing 1 with a refractory radiating lining 2. At the inlet of the burner there is a coaxial channel 3 for supplying coal-water fuel with nozzle 4 for coal-water fuel at its end and coaxial channels 5 and 6 for supplying, respectively, dust-air mixture and primary air. Coaxial channels 5 and 6 are equipped with swirls 7 and 8 of the dust-air mixture and primary air flows, respectively.

In the housing 1 of the burner there are tangential nozzles 9 for supplying secondary air. They are arranged in several rows along the length of the burner housing 1 and evenly (for example, through 90º) along its circumference. The output parts of the tangential nozzles 9 are made of a rectangular planar slot shape and are equipped with rotary blades 10.

At the output end of the burner housing 1, a coaxial cylindrical channel 11 is made for supplying additional tertiary air to the boiler furnace. It has rotary blades 12. A confuser 13 is made at the output end of the burner housing 1.

In the refractory radiating lining 2 of the burner body 1, electric heaters 14 are made evenly around its circumference, which are electrically connected to a current source (not shown). Electric heaters 14 are made in length from the entrance of the primary air channel 6 to the burner and to the confuser 13.

The kindling coal burner operates as follows. As a combustible fuel for operation of the burner, coal-water fuel or a dust-air mixture can be used. In the first case, coal-water fuel is supplied to the burner housing 1 through the channel 3 and the nozzle 4, in the second case, the dust-air mixture is supplied to the burner housing 1 through the channel 5.

For kindling the burner include electric heaters 14, which heat the refractory emitting lining 2 from the entrance of the primary air channel 6 to the confuser 13, i.e. over their entire length. Warming up this part of the burner is necessary and sufficient for further kindling of the burned fuel and allows saving energy. Then in the coaxial channel 6 serves the primary (kindling) air necessary for the rapid ignition and reliable combustion of the combusted fuel. The swirl 8 of the primary air flow in the coaxial channel 6 swirls the flow of primary air, and the latter swirls the combustible fuel (coal-water fuel or dust-air mixture). The execution of the channel 3 and nozzle 4 coaxial, and channels 6 and 7 coaxial allows the burned fuel and primary air to evenly mix inside the burner housing 1. An additional twist of the dust-air mixture is also facilitated by the swirl 7 of the flow in the channel 5. Effective mixing of the primary air with the combusted fuel improves mixture formation, and hence, its ignition and combustion. Primary air also cools the channels 3 and 5, through which the combustible fuel (coal-water fuel or dust-air mixture) enters the burner cavity. Under the influence of high temperature, the heated combusted fuel begins to gasify intensively. The resulting gas burns, further heating the combusted fuel, which contributes to its further gasification.

After heating of the refractory radiating lining 2 to 700-900 ° C, the electric heaters 14 are turned off, further gasification, heating and ignition of the combusted fuel will occur due to the radiation of heat from the refractory emitted lining 2. The heating of the above lining, in turn, will be further supported by fuel combustion inside the burner housing.

With a stable torch of combustible fuel, part of the air as secondary is supplied through tangential nozzles 9 to the burner body 1, and the rest as tertiary air is fed through a coaxial cylindrical channel 11 to the boiler furnace. In this case, the secondary air supplied through the nozzle 9, twists the combusted fuel and propels it to the exit of the burner. Nozzles 9 allow, if necessary, to redistribute the air along the entire length of the burner. The output parts of the nozzles 9 are made of a rectangular flat-slit shape, which allows the installation of rotary blades 10. The rotary blades 10 and 12 allow you to adjust the aerodynamics of the burner and combustion processes.

The confuser 13 allows you to enhance the recirculation of hot gases to the mouth of the burner, resulting in faster heating of the combusted fuel and its rapid ignition. Afterburning of combusted fuel occurs at the outlet of the stream from the burner body 1 to the furnace when it is mixed with tertiary air supplied through a coaxial cylindrical channel 11.

In the case of a short-term extinction of the torch in the burner for any reason, for example, a short-term interruption in the supply of combustible fuel, its subsequent ignition will take place due to heat radiation from the refractory lining 2 of the housing 1, which has a significant reserve of thermal energy.

The proposed kindling coal burner uses electric energy for its heating, which eliminates the scarce and expensive liquid or gas fuel. The kindling coal burner can run on coal-water fuel or a dust-air mixture. A kindling coal burner can be used to stabilize the combustion (torch support) of the main burners in boiler furnaces when burning any solid fuels, including low-reactivity and ballasted coal in thermal power plants, in industrial and domestic boiler houses, in the furnace industry.

Claims (6)

1. A kindling coal burner containing a housing with a radiating lining, a coaxial dust-air mixture supply channel is made at the burner inlet, tangential secondary air supply nozzles are made in the burner body, and a confuser and a coaxial cylindrical tertiary air supply channel to the boiler furnace are made at the output end of the burner, moreover, in the radiating lining of the burner body, uniformly around its circumference, electric heaters are installed, in the center of the dust-air mixture supply channel, a water-carbon feed channel is installed about fuel with a nozzle of coal-water fuel, and the primary air supply channel is made coaxially with the dust-air mixture supply channel. 2. The kindling coal burner according to claim 1, characterized in that the electric heaters are made in length from the inlet of the primary air channel into the burner and to the confuser. 3. The kindling coal burner according to claim 1, characterized in that in the coaxial channel for supplying the dusty air mixture and in the coaxial channel for supplying the primary air, flow swirls are made respectively of the dusty air mixture and primary air. 4. The kindling coal burner according to claim 1, characterized in that the rotary blades are installed in the coaxial cylindrical channel for supplying tertiary air to the boiler furnace. 5. The kindling coal burner according to claim 1, characterized in that the tangential nozzles for supplying secondary air are installed in several rows along the length of the burner body and evenly around its circumference. 6. The kindling coal burner according to claim 5, characterized in that the output parts of the tangential nozzles for supplying secondary air in the burner body are made of a rectangular planar slot shape and are equipped with rotary blades.

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