KR20050062715A - Solid fuel feeding chute in a circulating fluidized bed combustor - Google Patents

Abstract

The present invention relates to a fuel supply pipe for injecting solid particle fuel such as coal used in a circulating fluidized bed combustor, and its purpose is to maintain solid flow at all times in the supply pipe so that solid particles used as fuels are prevented from clogging solid particles. It is to provide a circulating fluidized bed combustion furnace having a fuel supply pipe that can prevent the rise of the temperature in the fuel supply pipe along with operation obstacles caused by.

The present invention comprises a fuel hopper of the upper end, a fixed amount feeder connected to the lower end of the fuel hopper, a gravity drop inlet pipe connected to the lower end of the metered feeder, and an inclined tube connected to the lower end of the gravity drop inlet pipe, The pipe is composed of a steep slope and a gentle slope, and a plurality of air jet nozzles are installed at the connection point between the steep slope and the gentle slope and the connection point between the slope and the combustion furnace to smoothly flow the solid particle fuel. It is the technical point of what is configured to hold.

Description

      Solid fuel feeding chute in a circulating fluidized bed combustor

The present invention relates to a fuel supply pipe, and more particularly, to ensure that solid particles used as fuel always maintain a smooth flow in the supply pipe, thereby preventing operation of the solid particles and preventing a rise in temperature in the fuel supply pipe. It relates to a fuel supply pipe.

In the circulating fluidized bed boiler, it is important for the efficiency and combustion control of the boiler to be carried out uniformly throughout the entire area. Therefore, for this purpose, a plurality of fuel inlets are provided per combustion furnace so that the injected fuel is distributed throughout the combustion cross-sectional area. Done. The number and location of fuel inlets is determined by the capacity of the furnace and the type of fuel. It is known that the circulating fluidized bed has a cross section of the combustion furnace that is more than five times larger than the foamed fluidized bed. In the case of coal boilers, two to four fuel inlets are installed based on a capacity of 100 MWe. In general, input by gravity is generally used. In the case of fine fuel particles, input by air transfer may be performed. In the case where the fuel is supplied by gravity lowering, the fuel particles are pulverized to have an appropriate particle size distribution and then transferred to the fuel input hopper and introduced into the fuel supply pipe by a screw feeder and a rotary feeder attached to the lower portion thereof. The fuel injection tube is inclined to the lower side wall of the combustion furnace so as to finally slide fuel particles by gravity through an intermediate path.

The solid fuel used in the circulating fluidized bed combustor has a small particle size, the water content and composition are not uniform due to the characteristics of the fuel, and in some cases, the instantaneous input is suddenly increased due to disturbance. For this reason, the flow of solid particles in the inclined fuel supply pipe is not smooth, so that not only the local temperature deviation due to fluctuations in fuel injection into the combustion furnace, but also the blockage of the fuel supply pipe, or the localization caused by the congestion of the fuel in the fuel supply pipe. There was a problem that takes a lot of time and expense to stop the operation or to handle the process due to the overheating phenomena formed by the fusion of fuel particles.

In order to smooth the flow of solid particles in the inclined fuel supply pipe, a method of increasing the inclination angle can be taken, but the structure of the lower part of the furnace connected to the fuel supply pipe is also inclined so that the contact area between the fuel supply pipe and the combustion furnace and the space for the fuel supply pipe are installed. And it is impossible to increase the inclination angle in terms of structure. In addition, a method of transporting fuel together with air in the air inlet pipe 1 after passing the gravity drop inlet pipe 2 by receiving fuel from the fuel tower 3 (US Pat. No. 5,829,368) is also used. Problems such as abrasion due to high-speed ejection of fuel particles may occur, and there is a problem that cannot be used when the fuel is injected into the particle recirculation pipe 4.

The present invention has been made to solve the conventional problems as described above, the object of which is to make the fuel supply inclined tube in two stages so that the solid particles to be used as a fuel to always maintain a smooth flow in the supply pipe and the bent portion and the connection air jet A nozzle is provided to provide a circulating fluidized bed combustion furnace equipped with a fuel supply pipe which can prevent operation of the solid particles and prevent a rise in temperature in the fuel supply pipe.

The present invention, which achieves the object as described above and removes the drawbacks of the prior art, has a fuel hopper at the top end, a metering feeder connected to a lower end of the fuel hopper, and a gravity drop input pipe connected to a lower end of the metering feeder. And an inclined tube connected to a lower end of the gravity drop input tube, wherein the inclined tube includes a rapid inclined tube and a gentle inclined tube, and a connection point between the rapid inclined tube and a gentle inclined tube and the inclined tube and the combustion furnace It characterized in that it is configured by installing a plurality of air jet nozzle at the connection point of.

In addition, the air jet nozzle is characterized in that it is configured to lower the temperature by releasing water when the combustion furnace exceeds a certain temperature by installing a water supply pipe therein.

In addition, the air jet nozzle is characterized in that it is configured to prevent the erosion of the nozzle head by using a "b" shaped nozzle and by installing a protective block behind the head.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view of a circulating fluidized bed combustion furnace in which a fuel supply pipe of the present invention is attached to a side wall, and FIG. 3 is a view of a circulating fluidized bed combustion furnace in which a fuel supply pipe of the present invention is attached to a particle recirculation pipe, and FIG. As shown in FIG. 1, the air jet nozzle is attached to the fuel hopper 40 at the uppermost end, the metering feeder 70 connected to the lower end of the fuel hopper 40, and gravity connected to the lower end of the metering feeder 70. Drop inlet tube 120 and the inclined tube 130 connected to the lower end of the gravity drop inlet tube 120, the inclined tube 130 is a rapid inclined tube 130a and gentle inclined tube 130b And a plurality of air jet nozzles 150 are installed at the connection point of the rapid inclination pipe 130a and the gentle inclination pipe 130b and the connection point of the inclination pipe 130 and the combustion furnace 10. .

It is preferable that the angle of the gentle inclined portion 130b is about 30 to 45 °, and the angle of the steeply inclined portion 130a for maintaining a high inclination is about 50 to 60 °. On the other hand, the length of the steep slope 130a should be determined in consideration of the overall height of the combustion furnace 10, the altitude and structure of the particle recirculation pipe that is the exit side of the layer particle circulation, and the installation space, or as close to the combustion furnace as possible. It is preferable to maintain the sliding velocity of the particles flowing into the gentle inclined portion 130b by maintaining the acceleration force of the solid particles high by maintaining them. In addition, the connection between the inclined tube 130 and the particle circulation tube 30 prevents the twisting of the tube due to thermal expansion of the combustion furnace by using the expansion joint 140.

7 is an enlarged view of an air jet nozzle attached to an inclined tube of the present invention, wherein the air jet nozzle 150 has an inner diameter of 1 to about a portion where the inclined tube and solid particles come into contact with each other when air is supplied from the outside; One or more nozzles having a size of 2 inches are installed so that they are flush with the angle of the gentle inclined fuel input tube and located on the surface. On the other hand, in the vicinity of the inlet of the combustion furnace 10, the combustion gas and the layered material in the combustion furnace flow back to the inclined tube 130 by the fluctuation of the pressure of the combustion furnace itself. In order to prevent this, the air jet nozzle 150 is also installed in the gentle slope portion 130b near the inlet of the combustion furnace. In addition, in this part, when the abnormal temperature is caused by the above-described causes, the water is sprayed together with the air jet nozzle and designed to help the cooling effect. In the method of spraying water, a 1 / 2-inch water supply pipe is inserted into the air supply pipe so that when the temperature in the particle supply pipe exceeds 900 °, the solenoid valve is opened and supplied to the supply pipe together with air.

In addition, Figure 8 is a view attached to the nozzle "a" to the inclined tube of the present invention, the "a" shaped air jet nozzle is installed horizontally on the inner surface of the gentle inclined fuel inlet pipe. On the other hand, in the above case, since the nozzle may be eroded by the falling solid particles, the protection block 170 is installed at the rear of the head to prevent erosion of the nozzle head. That is, the nozzle protection block 170 is attached to the surface of the supply pipe to the back of each nozzle head about 10 mm higher than the height of the nozzle head.

Hereinafter, the operation of the present invention will be described.

When the solid fuel falls from the fuel hopper 40 to the gravity drop inlet tube 120 by gravity through the metering feeder 70, the solid fuel flows into the rapid inclined tube 130a having a high inclination angle and accelerates and slides at a high speed. As it goes down, it is introduced into the combustion furnace through a gentle inclined tube 130b having a low inclination angle. At this time, the air is blown using the air jet nozzle 150 to the connection point of the steep slope and the gentle slope portion and the connection point between the inclined tube and the combustion furnace to prevent fuel congestion and the temperature rises above a threshold. The water is released from the water supply pipe inserted in the air jet nozzle to lower the temperature.

On the other hand, the fluidized bed is filled with a layer material composed of an absorbent such as lime or limestone for the purpose of ash or desulfurization of coal, which is sand or fuel. Combustion air is passed through the air preheater from the press-in blower, and part of the combustion air is supplied into the combustion furnace by the distribution plate 100 through the air box 90 which is the lower part of the combustion furnace to form a fluidized bed. Supply to the secondary or tertiary air supply pipe 110 attached to the side wall surface of the position higher than the fuel supply pipe. Various fuels such as coal are pulverized to a specific size or less (12 mm or less for coal briquettes) and burned through a fuel supply pipe directly attached to a side wall as shown in FIG. 4 or a separate fuel supply pipe attached to a particle recirculation pipe as shown in FIG. Into the particle layer at the bottom of the furnace. The injected fuel is mixed violently with bed particles, causing combustion to proceed throughout the furnace. The heat generated by the combustion is recovered through the water pipe installed inside the combustion furnace, and the combustion gas is recovered from the convective heat transfer unit and the waste heat is discharged to the atmosphere through the dust collector.

In addition, in the circulating fluidized bed combustor, the average particle diameter of the layered material is as small as 0.3 mm and the gas flow rate is maintained at about 4 to 6 m / s. Solid particles are collected in the cyclone 20 and recycled into the combustion furnace by a particle circulation unit such as a particle circulation tube 30.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, in the fuel supply pipe installed in the circulating fluidized bed combustion furnace, the inclined fuel supply pipe after the gravity drop supply pipe has a two-stage inclination consisting of a sharply inclined angle and a smoothly inclined angle. It is possible to maintain the descending speed largely due to the smooth flow of solid particles which have been lowered in the inclined tube by the steep inclination and smooth inclination angle at the inlet of the furnace. By manufacturing the fuel supply pipe, it is possible to reduce the axial contact length between the fuel supply pipe and the combustion furnace by reducing the height of the lower part of the densely-compacted combustion furnace to reduce the pressure drop applied to the entire combustion furnace, thereby reducing the power required by the blower. In addition, the space and structure between the fuel Hereinafter it. In addition, in the vicinity of the rapid inclination of the combustion furnace and the gentle inclination and near the feed inlet, air jet injection prevents the blockage in the inclined tube for supplying the solid particles, and the fluctuation of pressure in the combustion furnace together with the gas to the fuel supply pipe causes layer particles and fuel. It can suppress the formation of stagnant layer of fuel particles, which can be caused by obstructing the flow of particles due to the reverse flow of heavy particles. By preventing lump formation due to fusion, it is possible to extend the continuous operation time without stopping the fluidized bed, thereby reducing the cost of maintenance.

1 is a configuration diagram showing a conventional circulating fluidized bed combustion furnace,

2 is a view of a circulating fluidized bed combustion furnace in which a fuel supply pipe of the present invention is attached to a side wall,

3 is a diagram of a circulating fluidized bed combustion furnace in which a fuel supply pipe of the present invention is attached to a particle recirculation pipe,

4 is an enlarged view of a circulating fluidized bed combustion furnace in which a fuel supply pipe of the present invention is attached to a side wall,

5 is an enlarged view of a circulating fluidized bed combustion furnace in which a fuel supply pipe of the present invention is attached to a particle recirculation pipe,

6 is a view attached to the air jet nozzle to the inclined tube of the present invention,

7 is an enlarged view of an air jet nozzle attached to an inclined tube of the present invention,

8 is a view attached to the nozzle "a" to the inclined tube of the present invention.

<Description of the symbols for the main parts of the drawings>

(1): Air input pipe (2): Gravity drop pipe

(3): fuel tower (4): recirculation pipe

10: combustion furnace 20: cyclone

(30): particle circulation tube (40): fuel hopper

(50): fuel supply pipe (60): convection heat transfer

(70): fixed-quantity feeder (80): primary air

(90): air box (100): dispersion plate

110: supply pipe for secondary or tertiary air

(120): gravity drop input tube (130): inclined tube

130a: rapid inclined tube 130b

140: expansion joint 150: air jet nozzle

160: "a" shaped air jet nozzle

(170): protective block

Claims (3)

The fuel hopper of the uppermost end, the fixed amount feeder connected to the lower end of the fuel hopper, the gravity drop inlet pipe connected to the lower end of the metering feeder, and the inclined tube connected to the lower end of the gravity drop inlet pipe, In the circulating fluidized bed combustor comprising an inclined tube and a gentle inclined tube, and a plurality of air jet nozzles are installed at the connection point between the rapid inclined tube and the gentle inclined tube and the connection point between the inclined tube and the combustion furnace. Solid fuel feed tube. The method of claim 1, The air jet nozzle is a solid fuel inlet tube in a circulating fluidized bed combustor, characterized in that the water supply pipe is installed inside the combustion furnace exceeds a certain temperature configured to discharge the water to lower the temperature. The method of claim 1, The air jet nozzle is a solid fuel inlet pipe in a circulating fluidized bed combustion furnace, characterized in that the "a" shaped nozzle is used and a protective block is installed behind the head to prevent erosion of the nozzle head.