KR100540838B1 - The Solid Re-circulating Apparatus of Circulating Fluidized Bed Boiler - Google Patents

Abstract

The present invention relates to a solid recirculation apparatus in which solid particles contained in flue gas discharged from a circulating fluidized bed combustor are collected in a cyclone and flowed to a combustion furnace to be reburned, to prevent gas backflow from the combustion furnace and It is an object of the present invention to provide a solid recirculation device of a circulating fluidized bed boiler to reduce the power cost by reducing the energy consumption.

The present invention for achieving the above object is a solid recirculation device of a circulating fluidized bed boiler for recycling the solid particles collected in the cyclone 103 in the fluidized state in the direction of the combustion furnace, in a vertical direction to the lower end of the cyclone 103 A connected upstream leg portion 111, a base portion 112 inclined downwardly to the lower end of the upstream leg portion 111, and a downstream leg portion 113 connected vertically to the lower end of the base portion 112; It is characterized in that it comprises a discharge portion 114 is connected to the top of the downstream leg 113 inclined downward and connected to the combustion furnace 101.

The solid recirculation device of the circulating fluidized bed boiler of the present invention configured as described above is connected to the base portion inclined upstream leg portion, so that the solid particles descending from the cyclone may flow by their own weight along the base portion. Therefore, it is possible to reduce the power cost by reducing the amount of air supplied to the portion connecting the upstream leg portion and the base portion.

Circulating fluidized bed, combustion furnace, solid particles, upstream leg, downstream leg

Description

The Solid Re-circulating Apparatus of Circulating Fluidized Bed Boiler}

1 is a cross-sectional view showing an example of a solid recirculation device of a conventional circulating fluidized bed boiler,

Figure 2 is a cross-sectional view showing another example of a solid recirculation device of a conventional circulating fluidized bed boiler,

3 is a cross-sectional view showing a solid recirculation device of a circulating fluidized bed boiler according to an embodiment of the present invention,

4 is a detailed view of the solid recirculation apparatus illustrated in FIG. 3.

   Explanation of symbols on main parts of drawing

1, 101: combustion furnace 3, 103: cyclone

110: solid recycle device 111: upstream leg

112: base portion 113: downstream leg portion

114: outlet 121, 122: air supply

130: air box 140: jet plate

The present invention relates to a solid recirculation apparatus that collects solid particles contained in flue gas discharged from a circulating fluidized bed combustor in a cyclone and flows them to a combustion furnace, in particular, to prevent gas backflow of the combustion furnace. It is to reduce power consumption by reducing the amount of fluidization air.

Circulating fluidized bed combustion is a method of injecting various fuels (coal, sludge, solidifying fuel, etc.) and flowing them together with a high temperature layer material (sand, etc.) to burn them in a combustion furnace. Compared with the low operating temperature (870 ℃), the amount of nitrogen oxide generated is small. In addition, limestone is injected during the combustion process to allow desulfurization in the furnace, and easy temperature control in the furnace.

In this circulating fluidized bed combustor, coal ash and bed material are uniformly and quickly mixed and combusted by the fluidized air throughout the combustion furnace, and solid particles scattered with flue gas are collected in a cyclone and then transferred to a solid recirculation unit. Recycled into the furnace. Therefore, such a circulating fluidized bed combustion furnace can obtain a higher combustion efficiency than the conventional pulverized coal combustion furnace.

1 is a cross-sectional view showing an example of a solid recirculation apparatus of a conventionally known circulating fluidized bed boiler, Figure 2 is a cross-sectional view showing another example of a solid recirculation apparatus of a conventionally known circulating fluidized bed boiler.

The solid recirculation device 5 shown in FIG. 1 is a known invention in US Pat. No. 5,628,28, wherein the solid recirculation device 5 is composed of a plurality of pipes, and the upstream leg 5a is in the vertical direction. It is connected to the exit diameter of the cyclone 3, and the base part (horizontal leg part) 5b is connected to the end of the upstream leg part 5a, and extends in a horizontal direction.

The upflow leg (not shown in figure) is also located in the center of the side leg 5c which is parallel to the upstream leg 5a and bilaterally branched. The side leg portion 5c is positioned in the vertical direction and the end is formed to be inclined, and the return leg portion 5d connected to the side leg portion 5c is inclined downward and connected to the combustion furnace 1. The air inlet 7 is connected to the upstream leg 5a and the horizontal leg 5b.

Meanwhile, the solid recirculation device 15 shown in FIG. 2 is an invention known from US Pat. No. 5,735,682, which is a modification of the L-valve. Looking at such a solid recirculation device, the upstream leg 15a connected to the lower end of the cyclone 13, the horizontal leg 15b connected to the upstream leg 15a, and a slight downward inclination, and the combustion furnace 11 and It consists of the inclined leg part 15c connected. In addition, an air inlet 17 is provided at each of the upstream leg 15a and the horizontal leg 15b to accelerate the flow of solid particles.

The solid recirculation apparatus shown in FIGS. 1 and 2 has been developed such that the return leg portion and the inclined leg portion connected to the combustion furnace are inclined so that the layer material can smoothly enter the combustion furnace.

However, in the horizontal leg portion of the horizontal state is a dead zone is formed that does not flow smoothly and solid particles (Dead Zone) is formed, such generation of dead zones cause backflow of air from the combustion furnace. When the reverse flow of air occurs as described above, the performance of the cyclone is degraded. In order to overcome this, the amount of air injected into the horizontal leg must be increased to smoothly flow the solid particles.

In order to increase the amount of air as described above, the capacity and manufacturing cost of a fan for supplying air to the air inlet increases.

The present invention is invented to solve the problems of the prior art as described above, to prevent the gas backflow phenomenon in the combustion furnace to improve the function of the cyclone, and also to increase the amount of air provided in the air supply and the downstream leg portion It is an object of the present invention to provide a solid recirculation device of a circulating fluidized bed boiler configured to reduce the fluidized air volume through the air box to reduce the power cost by reducing the flow area.

In order to achieve the above object, the present invention provides a solid recirculation device of a circulating fluidized bed boiler for recirculating solid particles collected in a cyclone in a fluidized state to a combustion furnace, an upstream leg connected vertically to a lower end of the cyclone. And a base portion connected inclined downwardly to the bottom of the upstream leg portion, a downstream leg portion connected vertically to the bottom portion of the base portion, and an exhaust portion connected to the combustion furnace inclined downwardly to the top of the downstream leg portion. It is characterized by the technical features configured.

In addition, a first air supply is connected to the side opposite to the bottom side of the upstream leg portion to which the base portion of the present invention is connected to inject air toward the base portion.

In addition, a second air supply part for injecting air in the direction of the downstream leg portion is provided at the portion where the downstream leg portion and the base portion are connected.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a solid recirculation apparatus of a circulating fluidized bed boiler according to the present invention will be described in detail.

3 is a cross-sectional view showing a solid recirculation device of a circulating fluidized bed boiler according to an embodiment of the present invention, Figure 4 is a detailed view showing the solid recirculation device shown in FIG.

As shown in FIG. 3 and FIG. 4, the solid recirculation device 110 connects the lower end of the cyclone 103 and the lower end of the combustion furnace 101. The solid recirculation apparatus 110 includes an upstream leg 111 connected vertically to the lower end of the cyclone 103 and a base 112 connected to the lower end of the upstream leg 111 inclined downward at a predetermined angle. The downstream leg 113 is vertically connected to the lower end of the base portion 112 in an upward direction, and is inclined downward at a predetermined angle to the upper end of the downstream leg 113 to be connected to the bottom of the combustion furnace 101. It includes a discharge portion 114, the lower side of the upstream leg portion 111 is provided with a first air supply portion 121 to inject external air into the base portion 112, the base portion 112 and the downstream leg An air box 130 is formed at a portion to which the portion 113 is connected, and the second air supply portion 122 is connected to inject external air toward the downstream leg portion 113.

Hereinafter, the solid recirculation device of the circulating fluidized bed boiler configured as described above will be described in more detail.

The upstream leg 111 is a pipe having the same diameter as the outlet diameter of the cyclone 103, and is connected in a direction perpendicular to the outlet diameter, and the base portion 112 of the same diameter is connected to the lower side of the upstream leg 111. do. Meanwhile, in the upstream leg part 111, the first air supply part 121 is connected to the opposite side of the lower end side of the upstream leg part 111 to which the base part 112 is connected. The height of this upstream leg 111 is located vertically with a length of 0.5 to 4 times the inner diameter of the upstream leg 111. Although not shown in the drawings, the air flow rate injected through the first air supply unit 121 may be externally controlled through a separate control device.

On the other hand, the base portion 112 is connected to the lower end of the upstream leg portion 111, it is connected at an angle of 30 to 60 degrees downward with respect to the horizontal direction. Here, if the base portion 112 is less than 30 °, the flow rate of the solid particles is slow, and if more than 60 °, there is a disadvantage that a separate air injection unit must be installed to transfer the solid particles to the downstream part. Therefore, the inclination angle of the base portion is most preferably 30 to 60 degrees.

Further, the lower leg 113 is connected to the lower end of the base 112 in the vertical direction, and the distribution plate 140 and the air box 130 are connected to the base 112 and the downstream leg 113. ) Is installed to flow recycled solid particles deposited in the downstream leg 113. The amount of air required for fluidization is adjusted through a separate control device installed outside, nozzles 141 are installed in the dispersion plate 140 to inject air to fluidize the solid particles. On the other hand, the discharge portion 114 is connected to the upper end of the downstream leg 113 is connected downward to a predetermined angle (θ) with respect to the horizontal direction is connected to the combustion furnace 101.

Hereinafter will be described the operating relationship of the solid recirculation device of the circulating fluidized bed boiler of the present invention configured as described above.

The solid particles collected and transported in the cyclone 103 are transferred through the upstream leg 111, and the solid particles are fluidized along the base 112 by the air supplied from the first air supply 121. . Compared with the conventional L-valve (US Pat. No. 5,735,682), such a configuration requires a large amount of air to be injected in order to transfer solid particles to the horizontal leg portion 15b. Since the base portion 112 is inclined at a predetermined angle, in the first air supply portion 121, if only the amount of air that can flow the solid particles to the inlet of the base portion 112 is injected, Go down along section 112.

On the other hand, the solid particles flowing through the base portion 112 to the downstream leg portion 113 is fluidized by the air supplied from the air box 130 is recycled to the combustion furnace 101 via the discharge portion 114. .

Here, the downstream leg 113 preferably has a low height. If the height of the downstream leg 113 is low, the amount of solid particles is reduced, thereby reducing the amount of air supplied from the air box, thereby reducing the power cost of the second air supply unit 122. In addition, the gas sealing is sufficiently performed by the solid particles deposited on the downstream leg 113, the base 112, and a part of the upstream leg 111 to prevent the backflow of the gas in the combustion furnace 101. have.

As described in detail above, in the solid recirculation device of the circulating fluidized bed boiler of the present invention, the inclined base portion is connected to the upstream leg portion so that the solid particles descending from the cyclone are moved by their own weight along the base portion. Therefore, there is an advantage that the power cost of the fan can be reduced by reducing the amount of air supplied to the portion connecting the upstream leg and the base.

In addition, in the solid recirculation device of the circulating fluidized bed boiler of the present invention, the vertical leg portion is located between the base portion and the discharge portion. Solid particles filled in the downstream leg portion prevent the pressure imbalance caused by the high pressure inside the combustion furnace, thereby preventing the cyclone from deteriorating.

Although the technical idea of the solid recirculation device of the circulating fluidized bed boiler of the present invention has been described with the accompanying drawings, this is illustrative of the best embodiment of the present invention and not intended to limit the present invention.

Claims (4)

delete In the solid recirculation device of the circulating fluidized bed boiler for recycling the solid particles collected in the cyclone in the fluidized state toward the combustion furnace, An upstream leg connected in a vertical direction to a lower end of the cyclone, A base part inclined downwardly to a lower end of the upstream leg part; A downstream leg portion connected vertically to the lower end of the base portion, A discharge part connected to the upper end of the downstream leg part inclined downward and connected to the combustion furnace; And a first air supply unit connected to an opposite side to the bottom side of the upstream leg portion to which the base portion is connected to inject air toward the base portion. The method of claim 2, And a second air supply unit for injecting air in the direction of the downstream leg portion is installed at a portion where the downstream leg portion and the base portion are connected. The method according to claim 2 or 3, Solid base recirculation apparatus of the circulating fluidized bed boiler, characterized in that the base portion is inclined at 30 to 60 °.

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