KR101215411B1 - Submerged drag chain conveyor for bottom ash - Google Patents

Abstract

The present invention is the water is stored, the main body portion is injected low ash into the stored water; A high pressure water injection unit for spraying high pressure water into the main body to mix and flow water and low ash; And a drainage part for discharging the mixed water and low ash to the outside of the main body part. The low-wetting storage tank as described above can transfer the wet-treated low ash directly to the low-feed tank without additional equipment, and can operate stably.

Description

SUBMERGED DRAG CHAIN CONVEYOR FOR BOTTOM ASH}

The present invention relates to a low-wet storage tank for treating low ash generated in a coal fired boiler, and more particularly, to a low-wet storage tank capable of providing a wet-treated low ash in a subsequent treatment process without using a separate facility.

Thermal power generation is a method of generating electricity using steam generated by heating water with heat generated by burning fuel. In this case, the fuel used may be coal, oil, nuclear power, or the like.

On the other hand, when coal is used as fuel, bottom ash occurs due to the coal burned in the boiler. This low ash usually begins to be processed through low-wetting reservoirs installed at the bottom of the boiler. The low-wet storage tank is filled with water and the low ash is collected and transported by chain. At this time, the low ash is in a state of being injected into the water, and is wetted to move stably without scattering inside the low wet storage tank. The low ash conveyed and discharged from the low-wet storage tank is fed to the clinker grinder, and the clinker grinder crushes the clinker in the form of lumps in the low ash. Subsequently, the bottom ash is stored in the bottom ash tank via the bottom ash conveyor and then transferred back to the bottom ash tank. The low ash feed tank stores wet treated low ash mixed with seawater. These bottom ashes can be put into a post-treatment process, discarded or put into separate processes.

However, in the low wet storage tank in which the low wet treatment is performed, an attachment such as a tube protector installed inside the boiler may be oxidized at a high temperature and introduced together with the low ash. In addition, when coal other than the regulation is input into a boiler, low ash produces | generates into the clinker of the lump form. As a result, the attachment of the boiler or the clinker may be caught in the chain of the low-wetting tank, and the operation of the low-wetting tank may be degraded or stopped.

In addition, in the process of low ash, in addition to the low wet storage tank, a clinker grinder, a low ash conveyor, a low ash storage tank, and the like, an operation cost is additionally generated.

The present invention is to provide a low-wetting storage tank that can provide a wet-treated low ash directly to a subsequent treatment process without a separate facility.

It is also an object of the present invention to provide a low recuperation reservoir that can significantly reduce interruptions of operation due to low circuits.

The present invention is the water is stored, the main body portion is injected low ash into the stored water; A high pressure water injection unit for spraying high pressure water into the main body to mix and flow water and low ash; And a drainage part for discharging the mixed water and low ash to the outside of the main body part.

The high pressure water injection unit may include a high pressure water header positioned at a side of the main body and filled with high pressure water; High pressure water lines connecting the side of the main body and the high pressure water header to guide the high pressure water filled in the high pressure water header to the main body; And a high pressure water nozzle connected to the high pressure water lines and installed inside the main body to spray high pressure water into the main body.

In addition, the high pressure water nozzle discloses a low regeneration storage tank, characterized in that installed in the lower portion of the main body.

In addition, the outer circumferential surface of the high-pressure water nozzle discloses a low regeneration storage tank, characterized in that the injection holes are formed at regular intervals along the circumferential direction.

In addition, the drain portion is connected to the side of the main body portion, drainage lines for inducing the mixed water and low ash to the outside of the main body portion; And a drainage ejector connected to the ends of the drainage lines, receiving high pressure water, and draining the mixed water and the low ash using the high pressure water.

In addition, the mixed water and the bottom ash is sent to the transfer low ash tank through the drainage, the transfer low ash tank discloses a low-wetting storage tank, characterized in that the subsequent processing.

The low-wetting tank according to the present invention has the following effects.

(1) The low-wetting storage tank according to the present invention includes a main body portion, a high-pressure water injection portion, and a drainage portion, and the low ash is put into a main body where water is stored and wet treated, and the high-pressure water is injected into the main body portion using a high-pressure water injection portion. By spraying the low ash is mixed with water flows and is discharged through the drain. The water and the bottom ash discharged through the drainage portion are transferred to the low ash feed tank, and the low ash may be introduced into a subsequent treatment process. Therefore, the low-wetting storage tank according to the present invention has the effect of allowing the low-wetting to be directly treated by the subsequent treatment process.

(2) In the low-wetting storage tank according to the present invention, the high-pressure water jetting part of the main body part injects high-pressure water into the main body part to mix the low ash with water to flow. At this time, even if deposits or low-mass lumps inside the boiler are injected into the main body, they can be prevented from being caught in the driving portion of the low-wetting storage tank, for example, a transfer scraper. For this reason, the low recuperation storage tank according to the present invention has the effect of being able to operate smoothly by eliminating driving obstacles.

1 is a view showing the configuration of a low-wetting tank according to a preferred embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating the low wet storage tank shown in FIG. 1. FIG.
FIG. 3 is a perspective view illustrating the high pressure water nozzle of the high pressure water jet unit in the low-wetting storage tank shown in FIG. 2.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a view showing the configuration of a low-wetting storage tank 100 according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view showing the low-wetting storage tank 100 shown in Figure 1, Figure 3 is FIG. It is a perspective view showing the high pressure water nozzle 125 of the high pressure water injection unit 102 in the low-wetting storage tank 100 shown in.

As shown in Figures 1 to 3, the low-wetting storage tank 100 according to a preferred embodiment of the present invention includes a main body 101, a high pressure water injection unit 102 and the drain 103, the boiler From the bottom ash (bottom ash) generated from the wet process is transferred directly to the bottom ash transfer tank (200).

Water is stored in the main body 101, and bottom ash is introduced into the water. In addition, a conveying scraper 111 is provided below the main body portion 101. The conveying scraper 111 continuously scrapes and transports the bottom ash collected to the lower side of the main body portion 101 to put it in water. For this reason, low ash is wet-processed by the main-body part 101. FIG.

The high pressure water injection unit 102 injects high pressure water into the main body unit 101. At this time, the bottom ash inside the main body portion 101 is mixed with the water to flow. For this reason, the low ash whose specific gravity is larger than water does not sink in the inside of the main-body part 101. FIG. In addition, the high pressure water injection unit 102 includes a high pressure water header 121, high pressure water lines 123, and high pressure water nozzles 125.

The high pressure water header 121 is located at one side of the main body 101 and is filled with high pressure water. That is, the high pressure water header 121 functions as a source of high pressure water. In addition, the high pressure water header 121 is connected to the injection tank 110 in which the high pressure water is stored, and stably receives the high pressure water from the injection tank 110.

The high pressure water lines 123 connect the high pressure water header 121 with one side of the main body 101. As a result, the high pressure water filled in the high pressure water header 121 may be guided to the main body 101 and supplied inside. That is, the high pressure water lines 123 provide a moving path of the high pressure water. In addition, the high-pressure water lines 123 are positioned at regular intervals over one side of the body portion 101. For this reason, the high pressure water may be supplied evenly into the body portion 101 through the high pressure water lines 123.

The high pressure water nozzles 125 are connected to the high pressure water lines 123 and installed inside the main body portion 101. At this time, the high pressure water is injected into the body portion 101 through the high pressure water nozzle 125. For this reason, the low ash flows while being mixed with water in the body portion 101 by the high pressure water. In particular, the high pressure water nozzles 125 are preferably located at the lower portion inside the body portion 101. For this reason, the low ash is not accumulated and accumulated in the main body portion 101 by the high pressure water nozzles 125.

In addition, the high-pressure water nozzle 125 has a tubular shape in which one end surface is closed, and the injection holes 125a are formed at regular intervals in the circumferential direction. For this reason, the high pressure water is sprayed evenly over the inside of the main body portion 101 so as to mix the low ash with water so as not to accumulate on the bottom surface of the main body portion 101.

The drain portion 103 discharges the mixed water and the bottom ash to the outside of the main body portion 101. In general, the drain 103 is connected to the low-speed transfer tank 200, and transfers the mixed water and the low ash to the low-speed transfer tank 200. At this time, as mentioned above, since the low ash inside the main body portion 101 is mixed with water by the high pressure water and flows, the drain portion 103 is not closed. For this reason, the low ash is stably discharged to the outside of the main body 101 with water. The drain 103 also includes drain lines 131 and drain ejector 133.

The drainage lines 131 are connected to the other side of the main body 101 and guide the mixed water and the bottom ash to the outside of the main body 101. In addition, the drain lines 131 are also positioned at regular intervals over the other side of the main body 101. As a result, the mixed water and the low ash may be discharged to the outside evenly through the drainage lines 131.

The drain ejector 133 is connected to the ends of the drain lines 131 and discharges mixed water and low ash. At this time, the drain ejector is connected to the drain tank 120, and receives the high pressure water from the drain tank. The drain ejector 133 discharges water and low ash using high pressure water. As a result, clogging due to a low circuit in the drain line 131 can be prevented, and stably mixed water and low ash are induced.

As disclosed, the low-wetting storage tank 100 according to the present invention is discharged to the outside after the low ash is put into the water and wet treatment, and transported to the low-speed transfer tank 200. For this reason, the low ash wet-treated in the low wet storage tank 100 is directly transferred to the low ash transport tank 200 without any separate equipment, which is conventionally made, and disposed of in a separate process or disposed of in a separate process for subsequent processing.

In addition, the low ash flows while mixing with the water inside the body portion 101 by the high pressure water injected through the high pressure water injection unit 102. At this time, the attachment inside the boiler that can be injected into the body portion 101 also flows, and may also be broken while the low ash in the form of agglomerates flows. As a result, in the low-wetting storage tank 100, a phenomenon in which deposits or low-mass lumps are caught inside the boiler may be prevented. In addition, the low recuperation storage tank 100 is to operate smoothly.

While the present invention has been described in connection with certain exemplary embodiments, it will be understood by those skilled in the art that various changes may be made without departing from the scope of the present invention.

100: low-wetting storage tank 101: the main body
102: high pressure water injection unit 103: drain

Claims (6)

A main body unit in which water is stored and low ash is added to the stored water;
A high pressure water injection unit for spraying high pressure water into the main body to mix and flow water and low ash; And
And a drain for discharging the mixed water and the low ash to the outside of the main body. The method of claim 1, wherein the high pressure water injection unit,
A high pressure water header positioned at a side of the main body and filled with high pressure water;
High pressure water lines connecting the side of the main body and the high pressure water header to guide the high pressure water filled in the high pressure water header to the main body; And
And a high pressure water nozzle connected to the high pressure water lines and installed inside the main body to spray high pressure water into the main body. The method of claim 2,
The high pressure water nozzle is a low regeneration storage tank, characterized in that installed in the lower portion of the main body. The method of claim 2,
Low-wetting storage tank, characterized in that the injection holes are formed at regular intervals along the circumferential direction on the outer circumferential surface of the high-pressure water nozzle. The method of claim 1, wherein the drain portion,
Drainage lines connected to side surfaces of the main body and directing the mixed water and low ash to the outside of the main body; And
And a drainage ejector connected to the ends of the drainage lines, receiving high pressure water, and draining the mixed water and the low ash using the high pressure water. The method of claim 1,
The mixed water and the bottom ash is conveyed to the conveying low ash tank through the drainage portion, the conveying low ash tank is a low wet storage tank characterized in that the subsequent processing.

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