JPH0760069B2 - Method of removing molten slag - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method for removing molten slag for separating and removing molten slag generated during refining of steel and floating on the molten steel, for example. It is a thing.

(Prior art) As a conventional general method for removing molten slag, a method of removing the molten slag by scraping it with a slag scraping tool having its tip bent at a right angle, a dish-shaped slag scooping There are a method of removing the molten slag by scooping it with a tool, and a method of removing the molten slag while sucking the molten slag with a suction pipe having one end connected to a suction pump via a slag separator. As other prior art, a device for mechanically operating the slag scooping tool to remove slag (Japanese Patent Publication No. 62-27347), a method for suctioning and removing slag using the suction pipe ( Japanese Examiner Sho 62-
28390), and a method of blowing an inert gas into molten steel to separate and remove slag (JP-A-58-116962).

(Problems to be Solved by the Invention) Since all of the above-mentioned conventional removal methods remove molten slag in a molten state, only the molten slag is completely separated from molten metal such as molten steel. It was difficult to remove. That is, the molten metal underneath is removed together with the molten slag, and at the time of slag removal work, part of the molten slag is agitated and mixed into the molten metal and diffused so that no molten slag remains. It was almost impossible to remove. Therefore, the remaining slag often adversely affects the next step and deteriorates the quality of the metal. Further, the work of removing the molten slag is usually carried out manually by an operator, but since the work removes the molten slag, the work efficiency is extremely poor, and it requires skill and a large number of workers. I needed it. Moreover, when the molten slag is removed using the slag scraping tool or the slag scooping tool described above, the slag is adhered to the scraping section or the scooping section of the slag to solidify,
Since the solidification amount of the adhered slag gradually increases, it becomes impossible to continue the slag removal work. Therefore, a work for removing the adhered slag is additionally required.

This invention has been made in view of the above-mentioned points, and the molten slag can be reliably separated from the molten metal to be substantially completely removed, and since the solidified slag in the solidified state is removed, the removal work is easy and requires skill. It is an object of the present invention to provide a method for removing molten slag, which does not need to be performed, is excellent in work efficiency, can shorten the work time, and can reduce the burden on the worker.

(Means for Solving Problems) The gist of the present invention for achieving the above-mentioned object is that the molten metal does not solidify on the surface of the molten slag floating on the molten metal, and the molten slag does not solidify. Is to spray a cooling medium to such an extent that does not mix into the molten metal to solidify the molten slag and remove the solidified slag, and to use a hydrocarbon-based gas as the cooling medium.

(Operation) According to the method for removing molten slag of the present invention, only the molten slag is solidified and separated from the molten metal thereunder by the cooling medium sprayed on the surface of the molten slag, so that the solidified slag is conventionally removed. It can be easily removed by using a general slag removing tool.

Since the molten slag is not mixed into the molten metal by spraying the cooling medium, most of the molten slag can be efficiently removed. In addition, since the molten slag is removed in the solidified state, the slag is unlikely to adhere to the removing means such as a scraping tool, and the removal operation is easy and efficient.

(Example) Hereinafter, the Example of the molten slag removal method of this invention is described based on drawing.

FIG. 1 is a sectional view showing a first embodiment of the method of the present invention for removing the molten slag on the molten steel injected into the ladle. In the figure, molten steel A is contained in the ladle 1,
The molten slag B floats on the molten steel A. Reference numeral 2 denotes a slag scraping tool generally called a rake, which has a known structure in which the tip of the tool body 2a is bent downward at a substantially right angle to form a scraping section 2b. In addition, in the tool body 2a near the scraping portion 2b, the injection nozzle 3 for the cooling medium C is arranged downward, and the other end of the cooling medium supply pipe 3a whose one end is connected to the cooling medium source (not shown) is It is connected to the injection nozzle 3 through the inside of the main body 2a. Further, the supply pipe 3a is provided with an on-off valve 4 for adjusting the injection amount of the cooling medium C.

Then, the molten slag is removed by using the slag scraping tool configured as described above, and the tap 1a of the ladle 1 is removed.
With the side inclined slightly downward, the molten slag B is
The cooling medium C is sprayed onto the surface of the molten slag B at an appropriate position from above to cool and solidify the molten slag B. In this case, the scraping part is more
Since the slag B in the vicinity of 2b is solidified, the solidified slag B is moved to the side of the tap 1a by the scraping portion 2b, and is discharged and discharged from the tap 1a. By repeating such an operation, the molten slag B floating on the molten steel A
Are almost completely removed.

By the way, the cooling medium C is sprayed by the molten slag B.
So that molten steel A below does not solidify,
It is necessary, but not particularly difficult to perform. The reason is that the heat capacity per unit volume of the molten slag B at the melting temperature (around 1500 ° C.) is about 1/3 of that of the molten steel A, which is a large difference.
Therefore, when the cooling medium C is sprayed onto the surface of the molten slag B on the molten steel A to cool it, the molten slag B immediately lowers in temperature and solidifies, but the molten steel A is kept in a molten state and hardly solidifies. Moreover, since the molten slag B has a very low thermal conductivity, it hardly remelts once solidified into a solidified state, and even in the solidified state, the specific gravity is around 2 and the specific gravity of molten steel A (about 7) Since it is quite small, it does not sink while floating in the solidified state on the molten steel A. Therefore, only the molten slag B can be easily separated and removed from the molten steel A.

As the cooling medium C, various cooling gases and cooling liquids such as air are conceivable, but the hydrocarbon-based gas is most suitable in consideration of safety in handling and cooling capacity. For example, propane gas causes a decomposition reaction at a high temperature near the temperature of molten steel, and absorbs about 3100 kcal / Nm ³ during decomposition.
Since this heat absorption amount is 7 to 8 times that of air, the cooling capacity is very excellent. The temperature of the cooling medium C is sufficient at room temperature because the temperatures of the molten slag B and the molten steel A are extremely high.

Next, FIG. 2 is a sectional view showing a second embodiment of the present invention in which the molten slag solidified by the cooling medium is sucked and removed. In the figure, 5 is a suction pipe of a slag, which is suspended so as to be movable vertically and horizontally. Around the tip opening of the suction pipe 5, a large number of cooling medium injection nozzles 6 are arranged downward. I have set up. The other end of the suction pipe 5 is connected to a suction pump (not shown) via a slag separating device (not shown). In the case of the conventional slag suction / removal method, since the molten slag is sucked in the molten state, a cooling device for solidifying the sucked molten slag during transportation was required, but in the method of the present invention, As the solidified slag is sucked in, no such cooling device is required. Further, one end of the injection nozzle 6 is connected to a cooling medium source (not shown) by a cooling medium supply pipe 6a, and an on-off valve 7 for adjusting the injection amount of the cooling medium is interposed in the supply pipe 6a. It is equipped. In FIG. 2, the same parts as those in the first embodiment are designated by the same reference numerals. By the way, in the removal of the molten slag by the suction pipe having the above-described configuration, the tip of the suction pipe 5 is brought close to above the substantially central position of the surface of the molten slag B while the ladle 1 is kept in a horizontal state, and cooling is performed by the surrounding injection nozzles 6. The medium is sprayed onto the surface of the molten slag B to be solidified, and the solidified slag is sucked by the suction pipe 5. By changing the height and horizontal position of the suction pipe 5 and continuing such solidification / suction work, the molten slag B floating on the entire surface of the molten steel A is gradually solidified, and the suction pipe It is sucked into the slag 5 and sent to a slag separation device (not shown) to be almost completely removed.

(Effects) As described above, the method for removing molten slag according to the present invention has the above-described configuration, and therefore has the following effects.

(1) The molten slag can be reliably separated from the molten metal and can be removed almost completely.

(2) Since the solidified and solidified slag is removed, the removing work is easy and the working time can be greatly shortened as compared with the conventional method.

(3) Due to the effects of (1) and (2), no skill is required for removing work, work efficiency is excellent, and the burden on the operator is reduced.

(4) When sucking and removing the slag as in the second embodiment, a cooling device using cooling water is unnecessary,
Eliminates the risk of steam explosion.

[Brief description of drawings]

FIG. 1 is a sectional view showing a first embodiment of the molten slag removing method of the present invention, and FIG. 2 is a sectional view showing the same second embodiment. 1 …… Ladle, 2 …… Slag scraping tool, 3,6 ……
Cooling medium injection nozzle, 4, 7 ... Open / close valve, 5 ... Suction pipe, A ... Molten steel, B ... Melted slag.

Claims (2)

[Claims] 1. A molten slag floating on a molten metal is sprayed with a cooling medium on the surface of the molten slag to such an extent that the molten metal does not solidify and the molten slag does not mix into the molten metal to solidify the molten slag. A method for removing molten slag, which comprises removing the formed slag. 2. The method for removing molten slag according to claim 1, wherein the cooling medium is a hydrocarbon-based gas.