JP5994764B2 - Apparatus and method for spraying lime slurry on inner surface of slag pot - Google Patents

Description

  The present invention relates to an apparatus and a method for spraying lime slurry onto the inner surface of a slag pot installed in a process line for hot recycling of desulfurized slag in a mechanically stirred hot metal desulfurization apparatus (sometimes referred to as “KR apparatus”).

The hot metal discharged from the blast furnace is received in a hot metal ladle and subjected to preliminary treatment such as preliminary desulfurization using a KR device, followed by primary refining using a converter or electric furnace, and further using a RH degassing device. Subsequent refining is made into molten steel, which is housed in a ladle and made into slabs or steel ingots with continuous casting equipment.
As the desulfurizing agent used in the KR apparatus, those mainly composed of lime (CaO) are widely used, and the desulfurization reaction in this case proceeds based on the reaction formula shown by the following formula.
CaO + S → CaS + O

However, the reaction efficiency of lime introduced as a desulfurizing agent is around 10%, and unreacted lime remains in the slag.
Therefore, it is conceivable to use slag again as a desulfurization agent. For example, Patent Document 1 proposes a method for reusing slag in a ladle as shown below.
The slag remaining in the ladle after completion of casting is turned over while the hot ladle is overturned and discharged into the hot metal ladle containing hot metal, and the hot metal is converted into a furnace with the slag remaining in the hot metal ladle. Discharge as the main raw material for decarburization refining, and then receive the hot metal discharged from the blast furnace in the hot metal ladle where the slag remains, and desulfurize the hot metal using the remaining slag as a part of the desulfurizing agent. A method for reusing slag in the pot is described.

JP 2013-23738 A JP-A-8-5260

In Patent Document 1, the slag in the ladle is discharged into the hot metal ladle. However, as a method of reusing the slag generated by the desulfurization reaction, the slag in the hot ladle is taken out into the slag pot, The hot metal ladle before the desulfurization treatment is also charged.
However, in hot recycling using a slag pot, the metal in the slag may adhere to the inner surface of the slag pot, making it impossible to recycle, which hinders the improvement of the recycling ratio.
Then, although the device which improves the peelability of the slag pot bullion is necessary, in this regard, Patent Document 2 discloses a technique for facilitating the detachment of the bullion by spraying lime water on the inner surface of the Noro pot. Has been.
And in patent document 2, as spraying method of lime water, using a spray gun or sending lime water with a high-pressure pump and making it discharge from a nozzle are described (refer paragraph [0016] of patent document 2). ).

In the hot recycling process line in the KR apparatus, it is necessary to continuously spray lime water, and measures to prevent clogging with lime water in the delivery pipe and nozzle of lime water are necessary. In addition, when cleaning the delivery pipe and nozzle, if cleaning wastewater containing lime cannot be flowed to the ground or rainwater gutter, how to deal with it becomes a problem.
However, in the prior art, there has been no proposal for solving such a problem. Therefore, efficient slag recycling cannot be performed, and this solution has been desired.

  The present invention has been made to solve such a problem, and provides a device and a method that do not cause deterioration in efficiency due to clogging of nozzles and problems of wastewater treatment when spraying lime slurry on the inner surface of a slag pot. It is aimed.

(1) An apparatus according to the present invention is an apparatus that sprays lime slurry on the inner surface of a slag pot used in a hot slag recycling process line of a mechanically stirred hot metal desulfurization apparatus that performs desulfurization treatment of hot metal,
A lime slurry receiving tank for receiving lime slurry; a spray nozzle for spraying lime slurry to the slag pot; a swivel arm that holds the spray nozzle and swivels to the slag pot position and other positions; and the spray nozzle. Provided in the vicinity of the liquid feeding pipe for feeding the lime slurry of the lime slurry receiving tank, the washing water supply pipe for supplying washing water to the liquid feeding pipe, and the other position where the swivel arm turns. A cleaning wastewater receiving hopper that receives the cleaning wastewater, and a cleaning drainage return pipe that returns the cleaning wastewater received by the cleaning wastewater receiving hopper to the lime slurry receiving tank.

(2) In addition, in the above-described (1), the initial concentration of the lime slurry and the reception of the lime slurry so that the concentration of the lime slurry in the lime slurry receiving tank is 13.5% by mass to 15% by mass. The quantity, the spraying quantity, the washing water quantity and the number of washings are set.

(3) Further, in the above-described (1) or (2), the spray nozzle is centered on a spray guide member having a ramp-shaped inclined surface that is rotatably installed, and an upper surface of the spray guide member. A plurality of wing members that are provided radially from the part and having a liquid receiving surface; a scattering prevention cover that is provided so as to cover the scattering guide member through a predetermined gap between the scattering guide member; The rotary spray nozzle is provided with a discharge pipe for spraying lime slurry toward the center of the guide member.

(4) In the above (3), the distance between the discharge port of the discharge pipe and the liquid receiving surface can be adjusted.

(5)
The method according to the present invention is a method of spraying lime slurry on the inner surface of a slag pot that receives desulfurized slag used in a hot slag recycling process line of a charging pan impeller desulfurization facility (KR) that performs desulfurization treatment of hot metal, ,
The lime slurry receiving step for receiving the lime slurry in the lime slurry receiving tank, the lime slurry spraying step for spraying the lime slurry in the lime slurry receiving tank to the inner surface of the slag pot by the spray nozzle, and the spray nozzle is washed with the washing water. And a nozzle cleaning step for returning the cleaning wastewater to the lime slurry receiving tank.

(6) In addition, in the above-described (5), the initial concentration of the lime slurry and the reception of the lime slurry so that the concentration of the lime slurry in the lime slurry receiving tank is 13.5% by mass to 15% by mass. The quantity, the spraying quantity, the washing water quantity and the number of washings are set.

(7) Further, in the above (5) or (6), the spray nozzle is centered on the top surface of the spray guide member having a sprinkle-shaped inclined surface installed rotatably. A plurality of wing members that are provided radially from the part and having a liquid receiving surface; a scattering prevention cover that is provided so as to cover the scattering guide member through a predetermined gap between the scattering guide member; A rotary spray nozzle comprising a discharge pipe for injecting lime slurry toward the center of the guide member;
The lime slurry spraying step is characterized in that lime slurry is discharged from a discharge pipe and sprayed on the inner surface of the slag pot while rotating the spray guide member.

In the present invention, a lime slurry receiving tank that receives the lime slurry, a spray nozzle that sprays the lime slurry to the slag pot, a swivel arm that holds the spray nozzle and pivots to the slag pot position and other positions. A liquid feed pipe for feeding the lime slurry of the lime slurry receiving tank to the spray nozzle, a wash water supply pipe connected to the liquid feed pipe for supplying wash water to the liquid feed pipe, and the swivel arm A cleaning drainage receiving hopper provided near the swiveled other position that receives the cleaning drainage, and a cleaning drainage return pipe that returns the cleaning drainage received by the cleaning drain receiving hopper to the lime slurry receiving tank. The spray nozzle can be cleaned efficiently, and the spray efficiency of the lime slurry due to the clogging of the spray nozzle is hindered. Without the reuse of slag can be carried out continuously, therefore, improved recycling rate, intensity reduction in the desulfurizing material can be achieved.
Further, since the washing waste water from the spray nozzle and the liquid feeding pipe is returned to the lime slurry receiving tank, the treatment equipment for the washing waste water becomes unnecessary, and the equipment cost is reduced.

It is explanatory drawing of the lime slurry spraying apparatus which concerns on one embodiment of this invention. It is explanatory drawing of the process line of hot slag recycling of the mechanical stirring type hot metal desulfurization apparatus (KR apparatus) provided with the lime slurry dispersion | spreading apparatus which concerns on one embodiment of this invention. It is a graph which shows transition of the lime slurry density | concentration of the lime slurry acceptance tank of the lime slurry spraying apparatus which concerns on one embodiment of this invention. It is explanatory drawing of the spray nozzle (rotary spray nozzle) used for the lime slurry spraying apparatus which concerns on other embodiment of this invention. It is an enlarged view of the part enclosed with the broken line in FIG. It is an AA arrow line view of FIG. It is arrow C figure of FIG. It is a BB figure arrow view of FIG.

[Embodiment 1]
The apparatus for spraying lime slurry on the inner surface of the slag pot according to the present embodiment (hereinafter referred to as “lime slurry spraying apparatus”) is a hot slag recycle of a mechanical stirring type hot metal desulfurization apparatus (KR apparatus) that performs desulfurization treatment of hot metal. This is an apparatus for spraying lime slurry on the inner surface of a slag pot that receives desulfurized slag.
First, an outline of a hot slag recycling process line of a mechanically stirred hot metal desulfurization apparatus (KR apparatus) will be described with reference to FIG.

  The charging pan 63 containing the hot metal desulfurized by the KR device 61 is conveyed to the roasting field 67 by the hot metal charging crane 65, and the slag 71 is scraped out by the slag drucker 69 in the roasting field 67, and lime slurry is formed on the inner surface. Is charged into the slag pot 73 sprayed. The slag pot 73 charged with the slag 71 is conveyed above the charging pot 63 by the recycling crane 75 (see arrow (i) in FIG. 2), and the slag 71 is transferred to the charging pot 63. The charging pot 63 to which the slag 71 has been transferred is desulfurized by the KR device 61.

  On the other hand, the slag pot 73 emptied by transferring the slag 71 to the charging pot 63 is transported to the position of the slag pot carriage 77 by the recycling crane 75 (see arrow (ii) in FIG. 2) and mounted on the slag pot carriage 77. Placed. The slag pot 73 placed on the slag pot carriage 77 is transported by the slag pot carriage 77 to a position where the lime slurry dispersing apparatus 1 is located (see arrow (iii) in FIG. 2), and lime slurry is dispersed on the inner surface. The slag pot 73 in which the lime slurry is sprayed on the inner surface is again transported to the roasting field 67 by the slag pot carriage 77 (see arrow (iv) in FIG. 2), and the slag 71 is charged.

As shown in FIG. 1, the lime slurry spraying device 1 used in the process line as described above includes a lime slurry receiving tank 3 that receives lime slurry, a spray nozzle 5 that sprays lime slurry onto the slag pot 73, and A swivel arm 7 that holds the spray nozzle 5 and swivels to the slag pot position and other positions, a liquid feed pipe 9 that feeds the lime slurry of the lime slurry receiving tank 3 to the spray nozzle 5, and a liquid feed pipe 9 A second wash water supply pipe 11 connected to the feed pipe 9 for supplying wash water to the liquid feed pipe 9, and a wash drain receiving hopper 13 provided near the other position where the swivel arm 7 is swung to receive the wash drain And a cleaning drain return pipe 15 for returning the cleaning drain received by the cleaning drain receiving hopper 13 to the lime slurry receiving tank 3. The attached device will be described in detail.

<Lime slurry receiving tank>
The lime slurry receiving tank 3 is a tank for receiving and storing the lime slurry carried by the tank lorry 17.
The lime slurry carried by the tank lorry 17 is sent to the lime slurry receiving tank 3 by the receiving pump 21 through the receiving pipe 19. The receiving pipe 19 is provided with a first cleaning water supply pipe 23 for supplying cleaning water for cleaning the inside of the receiving pipe 19.

<Spray nozzle>
The spray nozzle 5 is a nozzle that sprays the lime slurry onto the slag pot 73. Although the form of the spray nozzle 5 is not particularly limited, it is preferable that the sprayed lime slurry can be sprayed uniformly on the inner surface of the nozzle pot.
As the spray nozzle 5, a nozzle capable of spraying lime slurry in the form of a mist can be used. In this case, since the spray nozzle 5 is likely to be clogged, the spray nozzle 5 is washed in this embodiment. However, a nozzle that is less likely to be clogged and can be sprayed uniformly will be described in a second embodiment described later.

<Swivel arm>
The swivel arm 7 has a swiveling function for holding the spray nozzle 5 and moving it to the slag pot position and other positions. The other position is above the position where the cleaning drainage receiving hopper 13 is installed. As shown in FIG. 1, the swivel arm 7 is installed above the support column 25, the proximal end side is rotatably attached to the upper end of the support column 25, and the spray nozzle 5 is installed on the distal end side. The turning arm 7 is driven to turn by a motor 27 attached to the column 25.

<Liquid feeding pipe>
The liquid feeding pipe 9 is for feeding the lime slurry in the lime slurry receiving tank 3 to the spray nozzle 5. As shown in FIG. 1, the liquid feeding pipe 9 has one end connected to the lime slurry receiving tank 3 and the other end attached with a spray nozzle 5.
In the middle of the liquid feeding pipe 9, a liquid feeding pump 29, a first valve 31, and a second valve 33 are provided. Further, a flexible pipe 9 a is used in the middle of the liquid feeding pipe 9 so as to follow the turning of the turning arm 7.
Further, a bypass pipe 35 for returning the liquid in the liquid feeding pipe 9 to the lime slurry receiving tank 3 is connected to the downstream side of the second valve 33 in the liquid feeding pipe 9. The bypass pipe 35 is provided with a bypass valve 37 whose opening degree can be adjusted. By adjusting the opening degree of the bypass valve 37, it is possible to adjust the spray flow rate by adjusting the amount of liquid fed to the spray nozzle 5 side.

<Second washing water supply pipe>
The second cleaning water supply pipe 11 is connected to the liquid feeding pipe 9 and supplies cleaning water to the liquid feeding pipe 9. One end of the second washing water supply pipe 11 is connected between the first valve 31 and the second valve 33 in the liquid feeding pipe 9. The second cleaning water supply pipe 11 is provided with an open / close valve 39.

<Washing wastewater receiving hopper>
The washing drainage receiving hopper 13 is provided in the vicinity of the other position where the swivel arm 7 pivots and receives the washing drainage. The washing water drainage receiving hopper has a funnel shape so that washing drainage is not scattered when the spray nozzle 5 is washed with washing water.

<Washing drain return piping>
The cleaning drain return pipe 15 is for returning the cleaning drain received by the cleaning drain receiving hopper 13 to the lime slurry receiving tank 3.

Next, a method for spraying lime slurry onto the inner surface of the slag pot 73 according to an embodiment of the present invention (hereinafter referred to as “lime slurry spraying method”) will be described together with the operation of the above-described apparatus.
In the lime slurry spraying method according to the present embodiment, the lime slurry receiving step for receiving the lime slurry in the lime slurry receiving tank 3 and the lime slurry in the lime slurry receiving tank 3 are sprayed on the inner surface of the slag pot 73 by the spray nozzle 5. A lime slurry spraying step, and a nozzle cleaning step for cleaning the spray nozzle 5 with cleaning water and returning the cleaning wastewater to the lime slurry receiving tank 3 are provided.
Hereinafter, each process will be described.

<Lime slurry receiving process>
The lime slurry receiving step is a step of receiving the lime slurry carried by the tank lorry 17 in the lime slurry receiving tank 3.
When the lime slurry is carried by the tank lorry 17, the receiving pump 21 is operated to send the lime slurry to the lime slurry receiving tank 3 through the receiving pipe 19. The concentration of the lime slurry carried by the tank truck 17 is 15% by mass. In this example, the case where the concentration of the lime slurry carried by the tank truck 17 is 15% by mass is illustrated, but this concentration can be changed. Even if this concentration is changed, the cleaning is performed as described later. By adjusting the amount of water and the number of washings, the concentration of the lime slurry to be dispersed can be adjusted to a predetermined concentration range.
When the receiving pipe 19 is clogged, cleaning water can be supplied from the first cleaning water supply pipe 23 for cleaning.

<Lime slurry spraying process>
The lime slurry spraying step is a step of spraying the lime slurry in the lime slurry receiving tank 3 onto the inner surface of the slag pot 73 by the spray nozzle 5.
When performing the lime slurry spraying step, the first valve 31 and the second valve 33 are opened, and the opening / closing valve 39 and the opening degree adjusting valve 37 are closed. Then, the liquid feed pump 29 is operated to supply the lime slurry in the lime slurry receiving tank 3 to the spray nozzle 5 through the liquid feed pipe 9, and the lime slurry is sprayed from the spray nozzle 5 to the inner surface of the slag pot 73. The sprayed lime slurry becomes mist and adheres to the inner wall surface of the slag pot 73, and is dried by the heat of the wall surface to form a uniform release layer.

<Nozzle cleaning process>
The nozzle cleaning step is a step of cleaning the spray nozzle 5 with cleaning water and returning the cleaning wastewater to the lime slurry receiving tank 3.
When performing the nozzle cleaning process, the swivel arm 7 is swung so that the spray nozzle 5 is positioned above the cleaning drainage receiving hopper 13. Then, the first valve 31 is closed, the second valve 33 and the opening / closing valve 39 are opened, and cleaning water is supplied from the second cleaning water supply pipe 11. The supplied wash water is supplied to the spray nozzle 5 through the liquid feed pipe 9, and the liquid feed pipe 9 and the spray nozzle 5 are washed. The cleaning wastewater is collected by the cleaning wastewater receiving hopper 13 and supplied to the lime slurry receiving tank 3 through the cleaning drainage return pipe 15.

  As described above, according to the method for spraying lime slurry of the present embodiment, spraying of lime slurry into the slag pot 73 and cleaning of the spray nozzle 5 can be performed efficiently, and the cleaning waste water is discharged out of the system. It is environmentally friendly.

In addition, since the waste water is supplied to the lime slurry receiving tank 3 when the nozzle cleaning process is performed, the concentration of the lime slurry in the lime slurry receiving tank 3 is reduced. The concentration of the slurry is desirably in the range of 13.5% by mass to 15% by mass.
In order to maintain the concentration of the lime slurry in the lime slurry receiving tank 3 at 13.5% by mass to 15% by mass, the initial concentration of the lime slurry, the amount of lime slurry received, the amount of spray, the amount of washing water, and the number of washings are adjusted. It only has to operate.
An example of the operating conditions is shown in Table 1. The capacity of the slag pot 73 is 6.7 m ³ .

As shown in Table 1, the operating conditions are as follows. The capacity of the slag pot 73 is 6.7 m ³ , the amount of lime slurry applied to the inner surface of the slag pot 73 is 36 liters, and the amount of washing water used is one time. 15 liters per tube, and the washing frequency was once per 10 lime slurry sprayings. Moreover, the capacity | capacitance of the lime slurry receiving tank 3 shall be 3000 liters, and when the amount of lime slurry in the lime slurry receiving tank 3 will be less than 500 liters as a time to receive lime slurry in a lime slurry tank (threshold at the time of lime slurry receiving) The lime slurry to be received had a concentration of 15% by mass and the amount received was 2000 liters per time.

  The transition of the lime slurry concentration in the lime slurry receiving tank 3 when operated under the operating conditions shown in Table 1 is shown in Table 2 and FIG.

In the graph of FIG. 3, the vertical axis represents the lime slurry concentration (% by mass) and the horizontal axis represents the number of washings.
As shown in FIG. 3, the lime slurry concentration in the lime slurry receiving tank 3 changed between 15% by mass and 13.5% by mass, and there was no adverse effect on the metal strip peeling effect of the slag pot 73.
In addition, the operating conditions shown in Table 1 are examples, and in order to set the concentration of the lime slurry in the range of 13.5% by mass to 15% by mass, the initial concentration of the lime slurry, the amount of lime slurry received, the amount applied, and the amount of the washing water And the number of washings may be adjusted as appropriate.

[Embodiment 2]
The lime slurry spraying device 1 of the present embodiment is changed to a rotary spraying nozzle 41 that is less clogged than the spray-type spraying nozzle 5 in Embodiment 1, can reduce the number of washings, and can spray evenly. Is. Since the configuration other than the spray nozzle is the same as that of the first embodiment, only the rotary spray nozzle 41 will be described below.

As shown in FIGS. 4 and 5, the rotary spray nozzle 41 of the present embodiment has a ramp-shaped inclined surface, and is disposed on the upper surface of the spray guide member 43 and the spray guide member 43 that are rotatably installed. A scattering prevention cover 47 provided so as to cover the spraying guide member 43 through a predetermined gap between the spraying guide member 43 and the plurality of blade members 45 having a liquid receiving surface 45a provided radially from the center. And a discharge pipe 49 that discharges the lime slurry toward the center of the dispersion guide member 43.
Hereinafter, each configuration will be described in detail.

<Spreading guide member>
As shown in FIGS. 4 and 5, the spreading guide member 43 is rotatably installed on the substrate 51 via a bearing 53, and its upper surface is a ramp-shaped inclined surface.

<Wing member>
As shown in FIG. 6, a plurality of wing members 45 are provided radially from the center on the upper surface of the dispersion guide member 43 (eight in this example). A liquid receiving surface 45a inclined with respect to the upper surface is provided (see FIG. 7). When the liquid flow of the lime slurry collides with the inclined liquid receiving surface 45a, a rotational force is applied to the spray guide member 43, and the spray guide member 43 rotates in the direction indicated by the arrow in FIG.

<Splash prevention cover>
As shown in FIG. 5, the scattering prevention cover 47 is provided so as to cover the scattering guide member 43 with a predetermined gap between the scattering guide cover 43 and the scattering guide member 43.
An opening 55 is provided at the center of the scattering prevention cover 47, and lime slurry is supplied from the opening 55.
The scattering prevention cover 47 is fixed to the bracket 57.

<Discharge pipe>
The discharge pipe 49 is a pipe member that discharges lime slurry toward the center of the dispersion guide member 43. Since the discharge pipe 49 does not need to spray the lime slurry, the discharge pipe 49 is constituted by a simple pipe having no reduced diameter portion and has a structure in which clogging is unlikely to occur. The discharge pipe 49 is attached to the bracket 57 via a screw part 59, and the distance between the discharge port of the discharge pipe 49 and the liquid receiving surface 45 a of the wing member 45 can be adjusted by the screw part 59. By adjusting this distance, the spread of the lime slurry to be spread can be changed. That is, by shortening the distance, the lime slurry collides with the wing member 45 vigorously, the rotation of the spraying guide member 43 is accelerated, and the spread area of the sprayed lime slurry is widened. Conversely, when the distance is increased, the impact force of the lime slurry against the wing member 45 is weakened and the rotation of the spray guide member 43 is slowed, so that the area of spread of the sprayed lime slurry is narrowed.

The operation of the rotary spray nozzle 41 of the present embodiment configured as described above will be described.
As shown in FIGS. 4 and 5, the lime slurry supplied from the liquid feeding pipe 9 is discharged from the discharge pipe 49 toward the wing member 45 of the spray guide member 43. The discharged lime slurry collides with the liquid receiving surface 45a of the wing member 45, imparts a rotational driving force, and flows on the upper surface of the spray guide member 43 toward the outer periphery of the spray guide member 43. It scatters in the circumferential direction at the outer periphery and is sprayed on the inner surface of the slag pot 73. Since the lime slurry is scattered in the circumferential direction from the rotating spraying guide member 43, the lime slurry is sprayed evenly in the slag pot 73. As shown in FIG. 4, the lime slurry sprayed on the upper part of the inner wall surface of the slag pot 73 flows along the wall surface to the bottom surface to form a uniform release layer.

As described above, according to the rotary spray nozzle 41 of the present embodiment, the lime slurry can be sprayed evenly and there is no need to provide a reduced diameter portion. The number of times can be reduced, and a stable continuous lime slurry can be dispersed in the slag pot 73.
Further, since the position of the discharge pipe 49 relative to the wing member 45 is made variable, the spraying area is made variable and can be applied to slag pots 73 of various sizes.

DESCRIPTION OF SYMBOLS 1 Lime slurry spraying device 3 Lime slurry receiving tank 5 Spray nozzle 7 Turning arm 9 Liquid feeding pipe 9a Flexible pipe 11 2nd washing water supply pipe 13 Washing drain receiving hopper 15 Washing drain return pipe 17 Tank truck 19 Receipt piping 21 Accepting pump 23 1st washing water piping 25 support | pillar 27 motor 29 liquid feed pump 31 1st valve 33 2nd valve 35 bypass pipe 37 bypass valve 39 on-off valve 41 rotary spray nozzle 43 spray guide member 45 wing member 45a liquid receiving surface 47 splash prevention cover 49 Discharge pipe 51 Substrate 53 Bearing 55 Opening 57 Bracket 59 Screw part 61 Mechanical stirring type hot metal desulfurization device (KR device)
63 Charging pan 65 Hot metal charging crane 67 Snorkeling field 69 Slag drucker 71 Slag 73 Slag pot 75 Recycling crane 77 Slag pot cart

Claims (5)

An apparatus for spraying lime slurry onto the inner surface of a slag pot used in a hot slag recycling process line of a mechanically stirred hot metal desulfurization apparatus for desulfurizing hot metal,
A lime slurry receiving tank for receiving lime slurry; a spray nozzle for spraying lime slurry to the slag pot; a swivel arm that holds the spray nozzle and swivels to the slag pot position and other positions; and the spray nozzle. Provided in the vicinity of the liquid feeding pipe for feeding the lime slurry of the lime slurry receiving tank, the washing water supply pipe for supplying washing water to the liquid feeding pipe, and the other position where the swivel arm turns. A cleaning wastewater receiving hopper that receives the cleaning wastewater, and a cleaning drainage return pipe that returns the cleaning wastewater received by the cleaning wastewater receiving hopper to the lime slurry receiving tank ,
The spray nozzle includes a spray guide member having a ramp-shaped inclined surface that is rotatably installed, a plurality of blade members that are provided radially from the center on the top surface of the spray guide member and have a liquid receiving surface, A scattering prevention cover provided so as to cover the spraying guide member through a predetermined gap between the spraying guide member and a discharge pipe for injecting lime slurry toward the center of the spraying guide member An apparatus for spraying lime slurry on the inner surface of a slag pot, characterized by being a rotary spray nozzle .   The initial concentration of the lime slurry, the amount of lime slurry received, the amount of spray, the amount of washing water and the number of washings were set so that the concentration of the lime slurry in the lime slurry receiving tank was 13.5% by mass to 15% by mass. The apparatus which spreads lime slurry on the inner surface of a slag pot according to claim 1. The apparatus for spraying lime slurry on the inner surface of the slag pot according to claim 1 or 2 , wherein a distance between the discharge port in the discharge pipe and the liquid receiving surface is adjustable. A method of spraying lime slurry on the inner surface of a slag pot that receives desulfurization slag used in a hot slag recycling process line of a charging pan impeller desulfurization facility (KR) that performs desulfurization treatment of hot metal,
The lime slurry receiving step for receiving the lime slurry in the lime slurry receiving tank, the lime slurry spraying step for spraying the lime slurry in the lime slurry receiving tank to the inner surface of the slag pot by the spray nozzle, and washing the spray nozzle with washing water And a nozzle cleaning step for returning the cleaning wastewater to the lime slurry receiving tank .
The spray nozzle includes a spray guide member having a ramp-shaped inclined surface that is rotatably installed, a plurality of blade members that are provided radially from the center on the top surface of the spray guide member and have a liquid receiving surface, A scattering prevention cover provided so as to cover the spraying guide member through a predetermined gap between the spraying guide member and a discharge pipe for injecting lime slurry toward the center of the spraying guide member Is a rotary spray nozzle,
The method of spraying lime slurry on the inner surface of the slag pot, wherein the lime slurry spraying step discharges the lime slurry from a discharge pipe and sprays the lime slurry on the inner surface of the slag pot while rotating the spray guide member . The initial concentration of the lime slurry, the amount of lime slurry received, the amount of spray, the amount of washing water and the number of washings were set so that the concentration of the lime slurry in the lime slurry receiving tank was 13.5% by mass to 15% by mass. The method of spraying lime slurry on the inner surface of the slag pot according to claim 4 .