KR20130110477A - Melting slag wet-treatmenting apparatus - Google Patents

Abstract

PURPOSE: A wet treatment device for molten slag is provided to cool the molten slag with cooling water while scattering and dispersing the molten slag, thereby making the size and a shape of the slag even. CONSTITUTION: A wet treatment device for molten slag includes a treatment tank (110), a slag scattering unit (120), a rotating unit (130), a cooling water spraying unit (140), a cooling water circulating pipe (150), and a settling tank (157). An inlet is formed on the treatment tank so that the molten slag is inserted. The slag scattering unit has a shape becoming wider from the top to the bottom. The rotating unit rotates the slag scattering unit, thereby scattering the molten slag. The cooling water spraying unit sprays cooling water to the slag scattering unit. The cooling water circulating pipe connects the floor surface of the treatment tank and the cooling water spraying unit. The settling tank is connected to the cooling water circulating pipe.

Description

MELTING SLAG WET-TREATMENTING APPARATUS}

The present invention relates to a wet treatment apparatus for molten slag that can make the particle size and shape of the slag uniform.

In general, molten slag may be generated in the steelmaking process. Molten slag can be quenched by spraying or slow cooled in outdoor air. Since the slag cooled in this way is mostly non-uniform in particle size and shape, it can be used by crushing after selecting the particle size of the slag.

Korean Laid-Open Publication No. 10-2010-0110222 (published on October 12, 2010) discloses a method and apparatus for treating molten blast furnace slag. The molten blast furnace slag is first cooled by contact with a rotary roll and secondly cooled by the mixed fluid in the first heat exchanger. Therefore, the vitrification rate of the molten blast furnace slag can be high.

Embodiments of the present invention provide a wet treatment apparatus for molten slag that can make the slag grain size and shape uniform.

According to an aspect of the invention, the treatment tank is formed in the inlet to the molten slag is injected; A slag scattering unit disposed in the treatment tank so as to correspond to the inlet, and having a shape that widens from an upper end to a lower end to disperse the molten slag when the molten slag is injected; A rotating part which scatters the molten slag by rotating the slag scattering part; And it provides a wet treatment apparatus for molten slag including a cooling water injection unit for injecting the cooling water to the slag scattering unit side.

A cooling water circulation pipe connecting the bottom surface of the treatment tank and the cooling water injection unit; And a settling tank connected to the cooling water circulation pipe.

A deodorization tank connected to the treatment tank; And a deodorization water injection unit for injecting deodorized water into the deodorization tank.

The deodorization tank may further include a deodorization drainage pipe connecting the deodorization tank and the cooling water circulation pipe to discharge the deodorization water to the cooling water circulation pipe.

The bottom surface of the treatment tank may be inclined so that the coolant injected into the treatment tank is drained outward.

A drainage path may be formed on the bottom surface of the treatment tank so that the coolant is drained, and the drainage path may be connected to the coolant circulation pipe.

A cooling passage may be formed in the slag scattering unit so that the cooling water flows.

A slag outlet for discharging the cooled slag is formed on the bottom surface of the treatment tank, and the slag outlet may further include a slag reservoir to accommodate the cooled slag.

According to the embodiments of the present invention, since the molten slag is cooled with cooling water while dispersing and scattering, the particle size and shape of the slag may be uniform.

1 is a view showing a wet treatment apparatus of molten slag according to 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. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, an embodiment of a wet treatment apparatus for molten slag according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a wet treatment apparatus of molten slag according to the present invention.

Referring to FIG. 1, the wet treatment apparatus for molten slag may include a treatment tank 110, a slag scattering unit 120, a rotating unit 130, and a coolant spray unit 140.

Inlet 111 may be formed in the treatment tank 110 to inject molten slag. The inlet 111 may be disposed above the treatment tank 110. The molten slag may be slag generated in blast furnaces, steelmaking furnaces and converters.

The bottom surface 112 of the treatment tank 110 may be formed to be inclined so that the coolant injected into the treatment tank 110 is drained outward. At this time, the bottom surface 112 of the treatment tank 110 may be inclined such that the central portion is high and the peripheral portion is low. Therefore, the cooled slag and cooling water which fell on the bottom surface 112 of the processing tank 110 can flow out from the center of the processing tank 110 to the outside.

A drainage passage 113 may be formed on the bottom surface 112 of the treatment tank 110 so that the coolant may be discharged. Drainage passage 113 may be connected to the cooling water circulation pipe 150 to be described below.

The slag outlet 115 may be formed on the bottom surface 112 of the treatment tank 110. The slag outlet 115 may be disposed outside the bottom surface 112 of the treatment tank 110.

The slag outlet 115 may be disposed in the slag reservoir 115 to accommodate the cooled slag. When slag is filled in the slag reservoir 115, the slag reservoir 115 can be moved to a desired place.

The treatment tank 110 may be provided with an exhaust fan 118 to discharge the gas generated in the interior of the treatment tank 110 to the stack.

At the center of the treatment tank 110 may be formed a support 117 protruding upwards so that the slag scattering unit 120 is installed. The height of the slag scattering unit 120 may be determined according to the height of the support 117. The support 117 may be disposed to correspond to the lower portion of the inlet 111 of the treatment tank 110. The slag scattering unit 120 may be disposed on the support 117 of the treatment tank 110.

The slag scattering unit 120 may be disposed to correspond to the inlet 111 in the treatment tank 110. The slag scattering unit 120 may be formed in a shape that widens from the top to the bottom to disperse the molten slag when the molten slag is injected.

The slag scattering unit 120 may include a head 121 formed in a conical shape and a rotation shaft connected to the head 121. The cooling passage 123 may be formed in the slag scattering unit 120 to allow the cooling water to flow.

The rotating unit 130 rotates the slag scattering unit 120 to scatter molten slag. The rotating unit 130 may rotate the slag scattering unit 120 at a rotational speed such that molten slag is scattered. Since the molten slag is scattered into small lumps by the rotation of the slag scattering unit 120, the cooling time of the molten slag may be significantly shortened.

The rotating part 130 may be installed to be shielded in the inner space of the treatment tank 110. In addition, the rotating unit 130 may include a separate cooling device or a cooling flow path so that the rotating unit 130 is not heated to a high temperature.

The coolant spray unit 140 may be disposed in the treatment tank 110 to spray coolant toward the slag scattering unit 120. The cooling water injection unit 140 may be disposed to be inclined at a position higher than the slag scattering unit 120. The coolant spray unit 140 may include a plurality of spray nozzles 141.

The wet treatment apparatus of the molten slag may further include a cooling water circulation pipe 150 and a settling tank 157.

The coolant circulation pipe 150 may be connected to the bottom surface 112 of the treatment tank 110 and the coolant spray unit 140. At this time, one end of the cooling water circulation pipe 150 may be connected to the drainage path 113 formed on the bottom surface 112 of the treatment tank 110, and the other end of the cooling water circulation pipe 150 may be connected to the cooling water injection unit 140. have. Cooling water containing some components of the slag flows into the cooling water circulation pipe (150). At this time, a component capable of removing odorous substances from the slag, particularly calcium hydroxide (Ca (OH) ₂ ), may be melted in the cooling water. Therefore, the coolant in the coolant circulation pipe 150 may be reused to cool the molten slag to remove some of the odor generated during the slag cooling.

The settling tank 157 may be connected to the cooling water circulation pipe 150. Since the coolant discharged to the drainage passage 113 includes foreign substances of slag, foreign substances may precipitate as the cooling water of the drainage passage 113 flows into the settling tank 157. Therefore, the settling tank 157 may allow the clean water to flow relatively to the coolant circulation pipe 150.

A plurality of pumps 151, 152, 153 and valves 155, 156 may be disposed in the coolant circulation pipe 150. For example, the first pump 151 and the second pump 152 may be installed in the cooling water circulation pipe 150 upstream and downstream of the settling tank 157. A third pump 153 may be installed at a portion where the cooling water circulation pipe 150 and the external water supply line are connected. In addition, a first valve 155 may be installed between the settling tank 157 and the second pump 152, and a second valve 156 may be installed between the second pump 152 and the coolant injection unit 140. have.

The wet treatment apparatus of the molten slag may further include a deodorization tank 162 and a deodorization water injection unit 165.

The deodorization tank 162 may be connected to the treatment tank 110 by the gas discharge pipe 161. The gas discharge pipe 161 may be connected to the upper portion of the treatment tank 110. Since the hot gas of the treatment tank 110 is convection upward, the gas discharge pipe 161 is installed above the treatment tank 110 to facilitate the discharge of the gas.

Deodorization injection unit 165 may be disposed on the upper portion of the deodorization tank 162 to inject deodorization water. The dewatering water injection unit 165 may include a plurality of injection nozzles 166.

Deodorization injection unit 165 may be connected to the deodorization supply pipe (not shown). The valve 167 and the pump 168 may be connected to the deodorizing water supply pipe. When the valve 167 is opened and the pump 168 is operated, deodorized water flows along the deodorized water supply pipe.

Deodorization drainage pipe 169 may be further included to connect the deodorization tank 162 and the cooling water circulation pipe 150. The deodorization drainage pipe 169 is connected to the lower portion of the deodorization tank 162 so that the deodorization water of the deodorization tank 162 is discharged to the cooling water circulation pipe 150.

The operation of the wet treatment apparatus of the molten slag according to the present invention configured as described above will be described.

Referring to FIG. 1, molten slag may be generated in blast furnaces, steelmaking furnaces, and converters in steel mills. The molten slag may be transferred to the treatment tank 110 by the ladle.

The ladle injects molten slag into the inlet 111 of the treatment tank 110. The molten slag is injected into the head 121 of the slag scattering unit 120 and dispersed to the outside of the slag scattering unit 120. At this time, since the slag scattering unit 120 is rotated by the rotating unit 130, the slag scattering unit 120 may be molten slag scattered outward in a small lump. Since the molten slag is scattered in small lumps, the cooling rate of the molten slag can be significantly improved.

The coolant spray unit 140 sprays coolant to the molten slag scattered and the molten slag dispersed in the head 121 of the slag scattering unit 120. Since the molten slag is quenched by the cooling water, the vitrification rate of the molten slag may be significantly higher. Therefore, the particle size and shape of the cooling slag can be remarkably uniform.

In addition, the slag contains a component for removing odorous substances. At this time, components capable of removing odorous substances, particularly calcium hydroxide (Ca (OH) ₂ ), may be melted in cooling water. Therefore, the coolant in the coolant circulation pipe 150 may be reused to cool the molten slag to remove some of the odor generated during the slag cooling.

Scattered slag and sprayed coolant fall to the bottom surface 112 of the treatment tank 110. The scattered slag may be moved to the circumferential side of the bottom surface 112 by the inclined bottom surface 112. Thus, scattered slag can be easily collected at the bottom surface 112.

The dropped coolant flows down the circumferential side of the bottom surface 112 along the drainage path 113 by the inclined bottom surface 112. The cooling water of the drainage passage 113 flows into the cooling water circulation pipe 150.

As the first pump 151 is operated, the coolant flows along the coolant circulation pipe 150 and flows into the treatment tank 110. Since the cooling water is precipitated in the treatment tank 110, foreign substances included in the cooling water may be precipitated at the lower side of the treatment tank 110. Therefore, much of the foreign matter contained in the cooling water can be removed.

The second pump 152 is operated and the first valve 155 and the second valve 156 are opened. At this time, the second pump 152 flows the water of the settling tank 157 along the cooling water circulation pipe 150. Cooling water may be supplied to the cooling water injection unit 140 and reused to cool the molten slag. Therefore, the amount of cooling water used can be significantly reduced.

The treatment tank 110 generates hot gas while the molten slag is cooled. The hot gas is introduced into the deodorization tank 162 through the gas discharge pipe 161. Deodorization injection unit 165 to deodorize the gas by removing the foreign matter contained in the hot gas. The gas deodorized in the deodorization tank 162 may be sent to the stack, filtered and combusted to remove pollutants.

Deodorized water of the treatment tank 110 may be discharged to the cooling water circulation pipe 150 through the deodorized water drain pipe 169. Thus, deodorized water can be reused for cooling the molten slag.

In addition, a portion of the hot gas of the treatment tank 110 may be sent to the stack by the exhaust fan 118. In the stack, gases can be filtered and burned to remove pollutants.

Therefore, contaminants, odors, etc. generated when the molten slag is cooled can be removed.

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.

110: treatment tank 112: bottom surface
113: drainage channel 120: slag scattering
130: rotating part 140: cooling water injection unit
150: cooling water circulation pipe 157: sedimentation tank
161: gas discharge pipe 162: deodorization tank
165: deodorized water injection unit 169: deodorized water drain pipe

Claims (8)

A treatment tank in which an inlet is formed to inject molten slag;
A slag scattering unit disposed in the treatment tank so as to correspond to the inlet, and having a shape that widens from an upper end to a lower end to disperse the molten slag when the molten slag is injected;
A rotating part which scatters the molten slag by rotating the slag scattering part; And
The apparatus for wet treatment of molten slag including a coolant spray unit for spraying coolant toward the slag scattering unit.
The method of claim 1,
A cooling water circulation pipe connecting the bottom surface of the treatment tank and the cooling water injection unit; And
Wet processing apparatus of the molten slag further comprises a settling tank connected to the cooling water circulation pipe.
3. The method of claim 2,
A deodorization tank connected to the treatment tank; And
Wet processing apparatus for molten slag further comprising a deodorizing water injection unit for injecting deodorizing water to the deodorizing tank.
The method of claim 3, wherein
And a deodorization drainage pipe for connecting the deodorization tank and the cooling water circulation pipe to discharge the deodorization water to the cooling water circulation pipe.
3. The method of claim 2,
The bottom surface of the treatment tank is a wet treatment apparatus of the molten slag, characterized in that formed inclined so that the cooling water injected into the treatment tank to the outside.
The method of claim 5, wherein
The drainage passage is formed on the bottom surface of the treatment tank so that the coolant is drained,
The drainage treatment system of the molten slag, characterized in that connected to the cooling water circulation pipe.
7. The method according to any one of claims 1 to 6,
The apparatus for wet treatment of molten slag, characterized in that a cooling passage is formed in the slag scattering portion so that cooling water flows.
The method of claim 7, wherein
On the bottom surface of the treatment tank is formed a slag outlet for cooling the slag discharged,
The slag outlet further comprises a slag reservoir for receiving the cooled slag, the wet treatment apparatus of the molten slag.

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