KR101562144B1 - Slag treatment device - Google Patents

Abstract

A device to treat slag is disclosed. According to an embodiment of the present invention, the device to treat slag comprises: a supply bath which supplies cooling water; a first make-up bath which makes up cooling water to the supply bath; a prime stone treating bath which produces prime stone slag using cooling water supplied from the supply bath; a granulated slag treating bath which produces granulated slag using cooling water supplied from the prime stone treating bath; a water purifying bath which treats cooling water discharged from the granulated slag treating bath, returning the cooling water to the supply bath; and a piping which connects the supply bath to the granulated slag treating bath to directly supply the cooling water of the supply bath to the granulated slag treating bath.

Description

SLAG TREATMENT DEVICE

The present invention relates to a slag treatment apparatus.

Generally, in ironmaking process, iron ore and fuel coal in iron furnace are heated by high-temperature wind. When iron is melted in iron furnace, iron ore is melted by heat generated by burning coking coal. When iron is melted in iron furnace, Is called blast furnace slag (slag).

Blast furnace slag can be reproduced as slag and slag slag by separate treatment. When the cooling water is added to the slag just out of the furnace under high pressure and quenched, it becomes a granule like sand, which is called slag.

On the other hand, the carbonaceous slag refers to a crystallized slag cooled by a natural air cooling method.

Water-based slag is generally used as cement raw material, cement admixture, silicate fertilizer, etc. It is used for concrete aggregate, road slope material, harbor construction material, fertilizer material, rock surface material.

In accordance with this demand, research and development of equipment for recycling slag is actively proceeding.

The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-1997-0073601 (Jul. 15, 1999, carburizing material using wastewater slag in steel making process).

Embodiments of the present invention provide a slag treatment apparatus that increases the amount of daily cooling water that can be replenished.

According to one aspect of the present invention, there is provided a method for producing a coal slag, comprising the steps of: a supply tank for supplying cooling water; a first replenishing tank for replenishing cooling water to the supply tank; A water treatment tank for producing the water slag by the supplied cooling water, a water tank for treating the cooling water discharged from the water treatment tank and returning the water to the water tank, and a water tank for directly supplying the cooling water of the water tank to the water tank, And a pipe connecting the water treatment tank to the slag treatment device.

And a first valve for controlling the amount of cooling water supplied from the supply tank to the water treatment tank through the pipe.

A sensor unit for measuring the water surface of the cooling water accommodated in the carbonizer treatment tank, and a controller for controlling the first valve according to a measurement result of the sensor unit.

The control unit may control the first valve to prevent the water surface of the cooling water accommodated in the carbonaceous treatment tank from rising gradually.

If the turbidity of the cooling water accommodated in the supply tank is equal to or greater than a reference value, the supply tank can receive new cooling water from the first supplement tank.

The amount of cooling water used in the water treatment tank may be greater than the amount of cooling water used in the above-mentioned stocker.

The stocker may include a reservoir for providing a space for receiving the cooling water supplied from the supply tank, and a lumber producer for producing the lumber slag.

According to the embodiments of the present invention, it is possible to improve the quality of the cooling water used in the slag treatment apparatus.

1 is a view showing a slag treatment apparatus according to an embodiment of the present invention.
2 is a diagram showing a partial configuration of a slag treatment apparatus according to an embodiment of the present invention.
3 is a graph showing experimental results of a slag treatment apparatus according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a slag disposal apparatus according to the present invention will be described in detail with reference to the accompanying drawings. Referring to the accompanying drawings, the same or corresponding components are denoted by the same reference numerals, A description thereof will be omitted.

FIG. 1 is a diagram showing a slag treatment apparatus 10 according to an embodiment of the present invention. FIG. 2 is a diagram showing a part of the structure of a slag treatment apparatus 10 according to an embodiment of the present invention, 1 is a graph showing the experimental results of the slag treatment apparatus 10 according to an embodiment of the present invention.

Referring to FIG. 1, a slag treatment apparatus 10 according to an embodiment of the present invention includes a supply tank 100, a first supplement tank 200, a carbonizer treatment tank 300, a water treatment tank 400, (500) and a pipe (600).

The supply tank 100 can supply the cooling water to the storage tank 310, which will be described later.

The turbidity of the cooling water accommodated in the supply tank 100 may increase gradually as the circulation is repeated.

The quality of the cooling water accommodated in the supply tank 100 can be managed in two ways.

First, chemicals may be injected into the cooling water accommodated in the supply tank 100.

Second, a portion of the cooling water accommodated in the supply tank 100 may be discharged, and new cooling water may be supplied to the supply tank 100.

The cooling water used to produce the sawdust slag or water slag may be subject to turbidity below a certain level. When the turbidity of the cooling water accommodated in the supply tank 100 becomes equal to or greater than the reference value (reference turbidity), a part of the cooling water can be discharged to the outside.

Turbidity refers to a value indicating the degree of water turbidity due to suspended solids in water, and generally NTU (Nephelo-metric Turbidity Unit) units are used. The lower the turbidity, the better the water quality and the higher the turbidity, the worse the water quality.

The reference turbidity of the cooling water used to produce the frit or sponge slag may vary depending on the water purification efficiency of the water treatment tank 500 or the equipment conditions. The reference value can be the highest turbidity of the cooling water that can be used to produce the spent gargle slag or the water slag.

The first supplementary tank 200 may supplement the cooling water to the supply tank 100. [

The first supplementary tank 200 can replenish the new cooling water to the supply tank 100 when a part of the cooling water accommodated in the supply tank 100 is discharged. The greater the number of cooling water replenished in the first supplementary tank 200, the lower the turbidity of the cooling water accommodated in the supply tank 100 can be.

A second valve 900 capable of regulating the amount of cooling water replenished from the first supplement tank 200 to the supply tank 100 may be installed between the first supplement tank 200 and the supply tank 100 .

The carbonizer treatment tank 300 can produce the carbonaceous slag by the cooling water supplied from the supply tank 100.

The stocker 300 may include a reservoir 310 and a stocker 320.

The reservoir 310 may provide a space for receiving the cooling water supplied from the supply tank 100. The storage tank 310 may be connected to the stock grower 320 and a cooling tower 410 to be described later to supply cooling water.

The lozenge generator 320 may produce the lozenge slag.

In the lumber generator 320, cooling water is injected to slowly cool the slag. The carbonaceous material slag may be a material in which the slag is slowly cooled to be crystallized.

Since the cooling water injected from the lozenge generator 320 is evaporated when the slag cools into the air, the cooling water used in the looper generator 320 may not be reusable.

The other components other than the feed tank 100 and the water treatment tank 400 are not connected to each other so that the circulation of the cooling water may not be performed well. When the amount of the cooling water used in the stockyard treatment tank 300 is small, the cooling water supplied from the supply tank 100 to the storage tank 310 gradually accumulates and the surface of the water can rise.

The water treatment tank 400 can produce water wood slag by the cooling water supplied from the storage tank 310 of the stockyard treatment tank 300.

The water treatment tank 400 may include a cooling tower 410 and a floodplain production machine 420.

The cooling tower 410 can provide a space for the cooling tower 410 to quench the cooling water supplied from the reservoir. The cooling tower 410 may be a kind of heat exchanger that brings the cooling water into contact with the air to cool the cooling water.

The slag can be quenched by high-pressure spraying of quenched cooling water in the cooling tower (410). The water-borne slag may be a substance in which the slag is quenched and crystallized.

The water tank 420 is connected to the water tank 500 so that the cooling water used in the water treatment tank 400 can be reused.

As described above, in a steel manufacturing plant, a facility for selling slag or lump of slag separated from molten iron is used.

However, at present, the demand for water slag is much higher than that of bulk slag, and the cooling water used for producing slag is much larger than the cooling water used for producing bulk slag.

The second supplementary tank 800 may be connected to the cooling tower 410. If the amount of the cooling water used in the water treatment tank 400 is insufficient, the cooling water may be supplied directly to the cooling tower 410 from the second supplement tank 800.

The water tank 500 can purify the cooling water discharged from the water treatment tank 400 and return it to the supply tank 100. The water tank 500 is connected to the water treatment tank 400 so that the cooling water can be moved. The water tank 500 may be connected to the feed tank 100 to convey the purified water.

As another example, the water tank 500 may be connected to the storage tank 310 of the stockyard 300 and directly reused without going through the supply tank 100.

The pipe 600 can connect the feed tank 100 and the water treatment tank 400 so that the cooling water of the feed tank 100 is directly supplied to the water treatment tank 400. The pipe 600 may be connected to the cooling tower 410 in the feed tank 100.

By forming the pipe 600 between the supply tank 100 and the water treatment tank 400, the amount of cooling water supplied to the water treatment tank 400 can be increased. Also, the amount of the cooling water supplied to the conventional carbonizing treatment tank 300 is reduced by the amount of the cooling water supplied to the water treatment tank 400, thereby preventing the water level rise of the storage tank 310.

The amount of cooling water remaining in the supply tank 100 can be reduced as the supply tank 100 can be supplied to both the storage tank 310 and the cooling tower 410. [ Therefore, a larger amount of cooling water can be replenished from the first supplementary tank. In this case, the turbidity of the cooling water accommodated in the feed tank 100 can be lowered.

2 is a diagram showing a partial configuration of the slag treatment apparatus 10 according to an embodiment of the present invention.

2, the slag treatment apparatus 10 according to an embodiment of the present invention may further include a first valve 700, a sensor unit 1000, and a controller 2000.

The first valve 700 can control the amount of cooling water supplied from the supply tank 100 to the water treatment tank 400 through the pipe 600. The first valve 700 may be provided in a plurality of ways. The first valve 700 can be manually or automatically adjusted.

The sensor unit 1000 can measure the water surface of the cooling water accommodated in the storage tank 310. For example, the sensor unit 1000 may be a water level sensor.

For this, the sensor unit 1000 may be installed in the storage tank 310.

The sensor unit 1000 may transmit the height measurement value of the water level of the storage tank 310 to the controller 2000.

The control unit 2000 may control the first valve 700 according to the measurement result of the sensor unit 1000.

The water surface of the cooling water accommodated in the reservoir 310 may gradually rise when the amount of the cooling water used in the stocker 300 is much smaller than the amount of cooling water used in the water treatment tank 400. [

The control unit 2000 opens the first valve 700 to prevent the water level of the cooling water from rising to the reservoir 310 when the water level of the cooling water accommodated in the reservoir 310 is equal to or higher than the reference water level, It is possible to prevent further increase of the water surface of the cooling water accommodated in the cooling water.

The reference water surface may be a minimum water surface height at which the cooling water accommodated in the reservoir 310 is not flooded or returned to another facility. The reference water level may vary depending on the conditions of the facility.

As another example, the control unit 2000 may adjust the opening degree of the first valve 700 according to the measured water level received from the sensor unit 1000. [ The opening amount of the first valve 700 is adjusted so that the inflow amount of the cooling water supplied from the supply tank 100 to the cooling tower 410 can be adjusted.

Accordingly, even if the amount of cooling water required in the water treatment tank 400 is greater than the amount of cooling water discharged from the stockyard treatment tank 300, the water level of the cooling water accommodated in the non- The amount of cooling water required in the bath 400 can be met.

In addition, as the supply tank 100 can be supplied to both the storage tank 310 and the cooling tower 410, a larger amount of the cooling water is supplied from the first supplement tank 200 as the amount of cooling water remaining in the supply tank 100 is reduced The water quality of the supply tank 100 can be improved.

3 is a graph showing experimental results of the slag treatment apparatus 10 according to an embodiment of the present invention.

Referring to FIG. 3, an experimental graph for a slag treatment apparatus 10 according to an embodiment of the present invention is disclosed. 2 is a graph comparing the average turbidity of the feed tank 100 over seven months and the amount of cooling water (make-up water) that can be supplemented on a daily basis depending on whether or not the pipe 600 is installed.

A is the experimental result of the slag treatment apparatus 10 in which the pipe 600 connecting the supply tank 100 and the water treatment tank 400 is not installed and B is the test result of the slag treatment apparatus 10 in which the pipe 600 is installed Experimental results.

The supply tank 100 and the water treatment tank 400 may be directly connected to receive the cooling water, so that the capacity of the cooling water to be supplemented to the supply tank 100 may be increased and the turbidity may be further lowered.

For example, the capacity of the cooling water replenished to the feed tank 100 can be increased by about two times, and the turbidity of the cooling water accommodated in the feed tank 100 can be reduced by about 1/3.

As described above, the slag treatment apparatus 10 according to an embodiment of the present invention can prevent a rise in the water level of the stockyard treatment tank 300, The amount of the cooling water can be increased to improve the quality of the water in the supply tank 100. In addition, by automatically controlling the sensor unit 1000 and the control unit 2000, the feedback control of the circulation of the cooling water between the components of the slag treatment apparatus 10 can be performed.

Therefore, the slag treatment apparatus according to an embodiment of the present invention can alleviate the problem caused by the asymmetry of the amount of cooling water used in the large-scale treatment tank and the large-scale treatment tank as the demand for water-based slag increases.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

10: Slag treatment device
100: Supply tank
200: First supplementary group
300:
310: Storage tank
320: Weed producer
400:
410: cooling tower
420: Raw material production machine
500: Water purification tank
600: Piping
700: first valve
800: Second supplementary group
900: second valve
1000:
2000:

Claims (7)

A supply tank for supplying cooling water;
A first replenishing tank for replenishing the cooling water to the supply tank;
A lump treating tank for producing lump slag by the cooling water supplied from the supply tank;
A wastewater treatment tank for producing a wastewater slag by the cooling water supplied from the above-mentioned lump treating tank;
A water tank for treating the water discharged from the water treatment tank and returning the water to the water tank; And
And a pipe for connecting the supply tank and the water treatment tank so that the cooling water of the supply tank is directly supplied to the water treatment tank.
The method according to claim 1,
Further comprising a first valve for adjusting the amount of cooling water supplied to the water treatment tank from the supply tank through the pipe.
3. The method of claim 2,
A sensor unit for measuring the water surface of the cooling water accommodated in the coal block; And
Further comprising: a controller for controlling the first valve according to a measurement result of the sensor unit.
The method of claim 3,
Wherein the controller opens the first valve when the water surface of the cooling water accommodated in the non-carbonizing tank becomes the reference water surface or more.
The method according to claim 1,
Wherein the supply tank is replenished with fresh cooling water from the first supplement tank when the turbidity of the cooling water accommodated in the supply tank is not less than a reference value.
The method according to claim 1,
Characterized in that the amount of cooling water used in the water treatment tank is greater than the amount of cooling water used in the above-mentioned carbonization treatment tank.
The method according to claim 1,
The above-
A reservoir for providing a space for receiving the cooling water supplied from the supply tank; And
And a carbonaceous material producer for producing the carbonaceous material slag by cooling water supplied from the storage tank.

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