KR102671910B1 - Apparatus for discharging waste solution of air preheater of boiler - Google Patents

Abstract

In order to discharge the air preheater cleaning liquid more smoothly, the main pipe extends in the axial direction, one end forms an outlet, and forms a pipe for discharging the cleaning liquid inside, and the cleaning liquid discharge pipe of the air preheater is installed on the side of the main pipe. Provided is a boiler air preheater cleaning liquid discharge device including a plurality of connected branch pipes and a supply pipe installed on the upper part of the main pipe to supply dilution water into the main pipe.

Description

{APPARATUS FOR DISCHARGING WASTE SOLUTION OF AIR PREHEATER OF BOILER}

The present disclosure relates to a device for discharging air preheater cleaning fluid of a boiler.

Generally, exhaust gas discharged from the boiler of a power generation facility passes through the catalyst layer of a selective catalytic reducer (SCR), then passes through an air preheater and dust collector, and is then discharged through a chimney. An air preheater is a device that uses the remaining heat of exhaust gas to heat air and supply it to the combustion chamber of the boiler.

The exhaust gases burned in the boiler contain sulfur dioxide and sulfur trioxide, which accumulate as pollutants in the air preheater installed at the rear of the facility and block the exhaust gas passage. In order to operate the boiler stably, the differential pressure of the air preheater needs to be operated below the control value. Accordingly, when the differential pressure of the air preheater is greater than the management value, the air preheater is cleaned to remove contaminants, thereby preventing internal clogging and allowing the boiler to operate normally.

However, in the conventional case, there is a problem in that the cleaning liquid containing ash solids and caustic soda generated during the air preheater cleaning process cannot be properly discharged.

As a result, solids block the pipes, preventing the cleaning liquid from being discharged properly and scattering to the outside from the air preheater. As the pipes are damaged by solids and chemicals, they leak out to the outside, causing environmental pollution and human casualties.

This project is to provide a boiler air preheater cleaning fluid discharge device that can discharge the air preheater cleaning fluid more smoothly.

The discharge device of this embodiment may be structured to discharge the cleaning liquid used to clean the air preheater when cleaning the air preheater that heats external air and supplies it to the boiler.

The discharge device extends in the axial direction, one end of which forms an outlet, a main pipe forming a pipe for discharging the cleaning liquid inside, a plurality of branch pipes installed on the side of the main pipe and connected to the cleaning liquid discharge pipe of the air preheater, and the main pipe. It may include a supply pipe installed at the top of the pipe to supply diluted water into the main pipe.

It may further include a supply unit connected to the supply pipe to supply dilution water.

It may further include a support installed below the main pipe to support the main pipe at a set height with respect to the ground.

The main pipe may have a relatively larger inner diameter than the inner diameter of the branch pipe.

The main pipe may have an inner diameter larger than the sum of the inner diameters of all branch pipes.

The branch pipe may have a structure that is inclined toward the outlet of the main pipe and is obliquely connected to the main pipe.

The supply pipe may have a structure that is inclined toward the outlet of the main pipe and is obliquely connected to the main pipe.

The branch pipe may include a first branch pipe connected to a cleaning liquid discharge pipe installed in the air preheater, and a second branch pipe connected to a cleaning liquid discharge pipe installed on an air pipe that supplies external air to the air preheater.

At least one of the first branch pipes may be axially connected to a tip opposite to the outlet of the main pipe.

According to this embodiment, each discharge pipe is connected to a common pipe of large diameter, thereby preventing clogging and enabling more smooth discharge.

By discharging the cleaning solution more effectively by injecting diluted water into the common pipe, it is possible to prevent blockage or damage to the discharge pipe by solids and minimize the scattering or leakage of the cleaning solution, including chemicals, to the outside.

It prevents the external environment from being polluted by clogging of solids or external scattering of cleaning liquid containing chemicals, and protects workers from chemicals.

Figure 1 is a schematic diagram showing the structure of the cleaning liquid discharge device according to this embodiment connected to the air preheater of the boiler.
Figure 2 is a schematic perspective view of a cleaning liquid discharge device according to this embodiment.
Figure 3 is a side view showing a cleaning liquid discharge device according to this embodiment.

Hereinafter, embodiments of the present invention will be described in detail. However, this is presented as an example, and the present invention is not limited thereby, and the present invention is only defined by the scope of the claims to be described later. The embodiments described below may be modified into various forms without departing from the concept and scope of the present invention. As much as possible, identical or similar parts are indicated using the same reference numerals in the drawings.

The terminology used below is only for referring to specific embodiments and is not intended to limit the invention. As used herein, singular forms include plural forms unless phrases clearly indicate the contrary. As used in the specification, the meaning of "comprising" is to specify a specific characteristic, area, integer, step, operation, element, and/or component, and to specify another specific property, area, integer, step, operation, element, component, and/or group. It does not exclude the existence or addition of .

Figure 1 shows a cleaning liquid discharge device connected to a boiler air preheater according to this embodiment, and Figures 2 and 3 show the configuration of the cleaning liquid discharge device according to this embodiment.

As shown in FIG. 1, an SCR (120), an air preheater (130), etc. are provided at the rear end of the boiler (100), and the exhaust gas discharged from the boiler (100) passes through the economizer (110) to the SCR (120). After passing through the catalyst layer, it passes through the air preheater 130, dust collector 140, etc., and is then discharged through the chimney 150.

The air preheater 130 heats external air and supplies it to the boiler 100. The air preheater 130 heats the external air using the heat of the exhaust gas through heat exchange.

Typically, the boiler 100 is equipped with two air preheaters 130 and are operated alternately. Each air preheater 130 may be provided with an air pipe 134 for blowing external air and a blowing fan 132 connected to the air pipe 134.

Each air preheater 130 is equipped with a cleaning device 136, and when the cleaning device 36 is driven to spray cleaning liquid into the inside for cleaning, the waste cleaning liquid is discharged to the outside through the discharge pipe 138 installed on the outside. is discharged.

The discharge device 10 of this embodiment is connected to each air preheater 130 and is structured to effectively discharge the cleaning liquid used to clean the air preheater 130 through the discharge pipe 138.

Each air preheater 130 is connected to the discharge device 10 of this embodiment, so that the cleaning liquid that cleans the air preheater 130 can be discharged from the air preheater 130 more quickly and effectively by the discharge device 10. It becomes possible.

For this purpose, the discharge device 10 extends in the axial direction, one end forms an outlet, and the main pipe 20 forms a pipe for discharging the cleaning liquid inside. It is installed on the side of the main pipe 20 and serves as an air preheater 130. A plurality of branch pipes 30 connected to the cleaning liquid discharge pipe 138, a supply pipe 40 installed on the upper part of the main pipe 20 to supply diluted water into the main pipe 20, and connected to the supply pipe 40. may include a supply unit 50 for supplying dilution water.

In this way, the cleaning liquid discharged from the two air preheaters 130 is collected into one large-diameter main pipe 20, and is discharged using separate dilution water supplied to the main pipe 20, so that the solid content or washing liquid is reduced. This prevents clogging in the discharge pipe 138 of the air preheater 130 and allows for more smooth discharge.

Each air preheater 130 is provided with two discharge pipes 138 through which the cleaning liquid is discharged. One cleaning liquid discharge pipe 138 is directly connected to the air preheater 130 and discharges the cleaning liquid from the air preheater 130, and the other cleaning liquid discharge pipe 138 connects the air preheater 130 and the blowing fan 132. It is connected to the air pipe 134, and discharges the cleaning liquid flowing into the air pipe 134 from the air preheater 130.

Accordingly, two cleaning liquid discharge pipes 138 are provided in each air preheater 130, and each can be connected to the main pipe 20 of the device through a branch pipe 30.

The main pipe 20 may be a cylindrical pipe structure forming a pipe inside. The main pipe 20 is formed to extend long along the axial direction. The overall length of the main pipe 20 may be modified in various ways. A handle 22 may be provided on the upper part of the main pipe 20. The operator can easily move and install this device to the required location using the handle 22.

One end of the main pipe 20 forms an outlet for discharging the cleaning liquid. The outlet of the main pipe 20 may be connected to the cleaning liquid treatment unit through a discharge line. Accordingly, the cleaning liquid discharged from the main pipe 20 can be transferred to the cleaning liquid processing unit 70 through the discharge line and reprocessed.

The main pipe 20 may be supported on a separately provided support 60 and installed at a predetermined height from the ground. The support 60 can position the main pipe 20 at a required height from the ground. The support 60 is a square frame structure, and is cut into an arc shape so that the main pipe 20 is placed at the top. Two supports 60 are spaced apart to support both ends of the main pipe 20. The main pipe 20 is seated in an arc-shaped groove formed at the top of the support 60 and can be fixed to the support using a bracket or the like.

A branch pipe 30 is installed in communication with the side of the main pipe 20. In this embodiment, the branch pipe 30 is a first branch pipe 31 connected to the cleaning liquid discharge pipe 138 installed in the air preheater 130. , 32) and second branch pipes 33 and 34 connected to the cleaning liquid discharge pipe 138 installed on the air pipe 134 that supplies external air to the air preheater 130. In the following description, the branch pipe 30 may refer to both the first branch pipes 31 and 32 and the second branch pipes 33 and 34.

Accordingly, the cleaning liquid immediately discharged from the air preheater 130 may flow into the main pipe 20 through the first branch pipes 31 and 32. The cleaning liquid flowing from the air preheater 130 into the air pipe 134 may flow into the main pipe 20 through the second branch pipes 33 and 34.

Since the boiler 100 is provided with two air preheaters 130 and each air preheater 130 is installed with two cleaning liquid discharge pipes 138, the main pipe 20 has two first branch pipes 31 and 32. and two second branch pipes 33 and 34 may be provided.

The first branch pipes 31 and 32 may have a relatively large inner diameter compared to the second branch pipes 33 and 34.

Since the first branch pipes 31 and 32 are connected to the cleaning liquid discharge pipe 138 of the air preheater 130. The inner diameter is relatively large compared to the second branch pipes 33 and 34 so that a relatively large amount of cleaning liquid can be discharged smoothly.

The second branch pipes 33 and 34 are pipes through which a relatively small amount of cleaning liquid discharged from the air pipe 134 flows, and have a relatively small inner diameter compared to the first branch pipes 31 and 32.

In the device of this embodiment, as shown in Figures 2 and 3, two second branch pipes 33 and 34 are connected and installed on one side of the main pipe 20, and one of the two first branch pipes (31) is connected to the second branch pipe (33, 34) on the opposite side of the main pipe (20), and the remaining first branch pipe (32) is connected to the axial end of the main pipe (20). .

In this way, one of the first branch pipes 31 and 32 is axially connected to the tip opposite to the outlet of the main pipe 20, thereby directing the flow of the cleaning liquid discharged from the first branch pipe 32 to the main pipe 20. It can be guided directly in the axial direction. Accordingly, the cleaning liquid can be discharged more smoothly through the main pipe 20.

In this way, the individual cleaning liquid discharge pipes 138 provided in each air preheater 130 provided in the boiler 100 are all connected to one main pipe 20, so that the cleaning liquid can be collected and discharged.

The branch pipe 30 may be connected to the main pipe 20 at an angle inclined toward the outlet. That is, as shown in FIG. 3, the first branch pipes 31 and 32 and the second branch pipes 33 and 34 connected to the side of the main pipe 20 are located in the axial direction of the main pipe 20. It is connected at an angle so that it faces the outlet. Accordingly, the washing liquid can more easily flow from the branch pipe 30 into the main pipe 20 along the flow of the washing liquid without interfering with the flow of the washing liquid toward the outlet of the main pipe 20.

The inclination angle of the branch pipe 30 with respect to the main pipe 20 may be modified in various ways.

In this embodiment, the inner diameter of the main pipe 20 is relatively larger than the inner diameter of the branch pipe 30, and may be larger than the sum of the inner diameters of all branch pipes 30 connected to the main pipe 20.

Accordingly, since the space is expanded from the branch pipe 30, which has a relatively small diameter, to the main pipe 20, which has a large diameter, the cleaning liquid can be smoothly discharged from the branch pipe 30 to the main pipe 20.

That is, due to the difference in diameter, the internal pressure of the main pipe 20 is relatively smaller than the internal pressure of the branch pipe 30, so that suction pressure is applied to the main pipe 20. Therefore, the cleaning liquid in the branch pipe 30 can be sucked into the main pipe 20 and discharged. Accordingly, the cleaning liquid used to clean the air preheater 130 can be smoothly and quickly discharged into the main pipe 20 through the branch pipe 30.

A supply pipe 40 for supplying diluted water is installed at the top of the main pipe 20. The dilution water supplied from the supply unit 50 flows into the main pipe 20 through the supply pipe 40. The supply unit 50 has a structure that supplies diluted water. Any structure that can supply the required amount of water is sufficient and is not particularly limited.

The supply pipe 40 may be connected to the main pipe 20 at an angle inclined toward the outlet. Accordingly, the dilution water flowing from the supply pipe 40 to the main pipe 20 creates a large fluid flow toward the outlet without interfering with the flow of the cleaning solution toward the outlet of the main pipe 20.

In this way, by supplying separate dilution water to the main pipe 20 through the supply pipe 40, it is possible to lower the concentration of the cleaning solution flowing into the main pipe 20. Accordingly, it is possible to prevent equipment, including the main pipe 20, from being damaged by chemicals in the cleaning solution.

In addition, by increasing the internal flow rate of the main pipe 20, the flow rate of the cleaning liquid discharged through the outlet of the main pipe 20 is increased. Therefore, due to an increase in the flow rate at the outlet of the main pipe 20, the discharge of the cleaning liquid from the branch pipe 30 to the main pipe 20 becomes more effective.

Although exemplary embodiments of the present invention have been shown and described as described above, various modifications and other embodiments will occur to those skilled in the art. These modifications and other embodiments are to be considered and included in the appended claims without departing from the true spirit and scope of the present invention.

10: discharge device 20: main pipe
22: handle 30: branch pipe
31,32: 1st branch pipe 33,34: 2nd branch pipe
40: supply pipe 50: supply unit
60: support

Claims (4)

An air preheater that is connected to the rear of the boiler and heats the outside air through heat exchange with the exhaust gas discharged from the boiler and supplies it to the boiler. A cleaning device is connected to one side and sprays a cleaning solution from the cleaning device to clean the inside. It is a cleaning liquid discharge device connected to the discharge pipe and used to discharge the cleaning liquid used to clean the air preheater.
Two air preheaters are connected to the boiler and operated alternately, each air preheater is provided with two discharge pipes through which the cleaning liquid is discharged, one discharge pipe is directly connected to the air preheater to discharge the cleaning liquid from the air preheater, and the other discharge pipe is connected directly to the air preheater and operates alternately. The discharge pipe is connected to the air pipe that supplies external air to the air preheater, and discharges the cleaning solution flowing into the air pipe from the air preheater.
The cleaning liquid discharge device extends in the axial direction, has an outlet at one end, and forms a pipe inside which discharges the cleaning liquid. The main pipe collects and discharges the cleaning liquid discharged from the two air preheaters into one, installed on the side of the main pipe. It includes a plurality of branch pipes connected to the cleaning liquid discharge pipe of the air preheater, and a supply pipe installed on the upper part of the main pipe to supply dilution water into the main pipe,
The branch pipes include two first branch pipes connected to the cleaning liquid discharge pipe installed in each air preheater, and two second branch pipes connected to the cleaning liquid discharge pipe installed on the air pipe that supplies external air to each air preheater. Including,
The main pipe has a relatively larger inner diameter than the inner diameter of the branch pipes, and the inner diameter is larger than the sum of the inner diameters of all of the branch pipes,
The first branch pipe has a relatively larger inner diameter than the second branch pipe, and one first branch pipe of the two first branch pipes is axially connected to the tip opposite to the outlet of the main pipe to flow the cleaning liquid. A boiler air preheater cleaning liquid discharge device structured to guide the axial direction of the main pipe. delete delete According to claim 1,
The branch pipe is inclined toward the outlet of the main pipe and is obliquely connected to the boiler's air preheater cleaning liquid discharge device.

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