KR100391571B1 - Zn-separating apparatus from sludge of blast furnace - Google Patents

Abstract

The present invention relates to a device for separating low zinc sludge into blast furnace raw material after separating the sludge collected in the wet vibration damper into high zinc sludge and low zinc sludge according to the zinc content.

The thinner is concentrated in the blast furnace wet cleaner, and the sludge collected in the bottom of the thinner 10 is pumped by the sludge pump 20, and the dilution water is supplemented, and the stirrer 40 is installed. In the sludge de-zinc apparatus which consists of the tank 30 and the cyclone 80 which classifies sludge after pumping diluted sludge by the feed pump 60, among the sludge classified by the cyclone 80, A low zinc sludge treatment unit for dewatering low zinc sludge, a high zinc sludge treatment unit for dehydrating high zinc sludge, and a filtrate treatment unit for feeding back the filtrate generated in the apparatuses to the seeker 10,

Resources can be saved by reusing low zinc sludge as blast furnace raw material, and the treatment cost of sludge disposal can be saved by transporting high zinc and low zinc sludge after dehydration treatment.

Description

Zn-separating apparatus from sludge of blast furnace}

The present invention relates to a process and apparatus that can reuse the sludge collected in the wet deduster of the blast furnace equipment of steelworks, and more specifically, the sludge collected in the wet deduster and the zinc zinc sludge according to the zinc content After separation into low zinc sludge, the present invention relates to an improved blast furnace sludge de-zinc process and apparatus to prevent energy savings and environmental pollution by recycling low zinc sludge as blast furnace raw material.

In general, the sludge collected in the wet vibration damper contains a large amount of zinc, so most of the sludge is not reclaimed as a raw material and is mostly landfilled.

This is because the zinc component in the sludge forms deposits in the blast furnace, which causes instability in the gas flow and charge drop instability due to disturbance of the charge distribution, which leads to a decrease in production and an increase in fuel costs.

Therefore, an apparatus for reusing as a blast furnace raw material by removing the zinc component in the sludge has been developed.

Conventional blast furnace sludge de-zinc process and apparatus are largely RASA, HOOGOVENS, MOZLEY TYPE. Among them, RASA and HOOGOVENS TYPE divides sludge into 1st and 2nd, and the process is complicated. There was a problem that the investment cost is excessive.

And the process and apparatus of the conventional MOZLEY TYPE is as shown in the configuration of the blast furnace sludge de-zincification apparatus of the conventional MOZLEY TYPE of FIG.

According to FIG. 1, in the MOZLEY TYPE process, the blast furnace sludge collected in the wet vibration damper is precipitated in the thinner (THICKENER; 10), and the precipitated sludge is transferred to the dilution tank 30 by the sludge pump 20.

In the dilution tank (30), dilution water is added to the cyclone (80) by the feed pump (FEED PUMP) 60 after dilution to the concentration required by the cyclone (CYCLONE; 80), and by the centrifugal force of the cyclone (80). It is separated into high zinc sludge and low zinc sludge.

Low zinc sludge 141 of the separated sludge is reused as blast furnace raw material after drying in the yard and the filtrate is introduced into the filtrate storage tank 170, the high zinc sludge is introduced into the settling tank 90 and then to the pump 190 It is discharged into the lagoon (LAGOON), the filtrate and dilution tank 30 of the low zinc sludge 141, overflowed from the settling tank 90 (OVER FLOW WATER) is introduced into the filtrate storage tank 170 and reused. To the seeker 10 by the filtrate transfer pump 180.

However, the conventional blast furnace sludge de-zinc apparatus of the MOZLEY TYPE has the advantage of simple facility and low investment cost compared to RASA and HOOGOVENS TYPE, but high zinc and low zinc sludge separated from the cyclone 80, yard and lagoon By discharging to the raw material recycling effect, but there was a problem to pollute the environment.

The present invention for solving the above problems, the sludge separation is the blast furnace sludge to prevent environmental pollution by applying dehydration treatment of high zinc and low zinc sludge after dewatering the sludge after applying the MOZLEY TYPE to reduce the investment cost The purpose is to provide a dezincification device.

1 is a configuration diagram of a blast furnace sludge de-zincification apparatus of the conventional MOZLEY TYPE,

2 is a schematic view of the blast furnace sludge de-zincification apparatus according to the present invention,

3 is a detailed configuration diagram of the blast furnace sludge de-zincification apparatus according to the present invention,

Figure 4 is a flow chart of the de-zinc operation using the de-zinc apparatus according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: seeker 20: sludge pump

30: dilution tank 40, 120: stirrer

60: feed pump 80: cyclone

90: sedimentation tank 110: low zinc storage tank

120: stirrer 130: transfer pump

140: drum filter 160: screw decanter

170: filtrate storage tank 180: filtrate transfer pump

De-zincification apparatus of the blast furnace sludge of the present invention for achieving the above object, the sludge pump 10 for concentrating the sludge collected in the wet dedusting machine of the blast furnace, and the sludge sediment settled in the lower portion of the thinner sludge pump Sludge composed of a dilution tank 30, which is supplemented with dilution water after being pumped to 20, and a cyclone 80 for classifying the sludge after pumping the diluted sludge by the feed pump 60 with the agitator 40 installed. In the de-zinc apparatus of

Low zinc sludge treatment unit for dewatering low zinc sludge among the sludge classified by the cyclone (80), high zinc sludge treatment unit for dewatering high zinc sludge, and the filtrate generated in the apparatus to the seeker (10) It is characterized by consisting of a filtrate processing unit for feeding back.

In addition, the present invention, in the above-described de-zinc apparatus, the low zinc sludge treatment unit receives the low zinc sludge classified by the cyclone 80 through the lower pipe 82 and the low zinc storage tank in which the stirrer 120 is installed ( 110, and a drum filter 140 for dewatering by pumping the low zinc sludge to the transfer pump (130).

In the present invention, in the above-described de-zinc apparatus, the high zinc sludge treatment unit has a settling tank 90 which receives the high zinc sludge classified by the cyclone 80 through the upper pipe 81 and the precipitated sludge. It is characterized in that it comprises a screw decanter 160 to dehydrate.

In addition, the present invention, in the dezincification apparatus, the filtrate treatment unit is a clear filtrate of the upper portion of the dilution tank 30 and the settling tank 90 and the dehydrating liquid separated from the drum filter 140 and the screw decanter 160 It comprises a filtrate storage tank 170 for storing, and a filtrate transfer pump 180 for pumping the stored filtrate to the seeker (10).

Hereinafter, with reference to the drawings will be described in detail with respect to the present invention.

As shown in the schematic diagram and configuration of the blast furnace sludge de-zincification apparatus according to the present invention of Figures 2 and 3, each component and action is as follows.

First, the sludge collected in the blast furnace wet vibration damper is introduced into the seeker 10, and the flocculant is injected into the seeker 10 to settle down to the seeker 10.

The precipitated sludge is transferred to the dilution tank 30 in which the stirrer 40 is installed by the sludge pump 20. The sludge is high in the concentration of 20 to 50%, so the dilution water pipe 50 in the dilution tank 30 is reduced. Refill dilution water through).

According to the embodiment of the present invention, the sludge concentration in the dilution tank 30 is 5 to 7%, and the shear pressure of the cyclone 80 is preferably 1.0 to 2.0 bar by the feed pump 60.

On the other hand, in addition to the above apparatus, the flow meter 53 for controlling the flow rate of the dilution water, the control valve 52 and the level meter 31 for controlling the flow rate by the sludge level of the dilution tank 30, and the dilution tank 30 An agitator (AGITATOR) 40 is provided to prevent sedimentation of sludge in the sludge, and a filter 62 for preventing clogging of the cyclone 80 and a flow meter 64 for controlling the flow rate of the sludge conveyed to the cyclone 80. And a valve 63.

The sludge introduced into the cyclone 80, which is a sludge classification device by the feed pump 60, is discharged to the lower part of the cyclone 80 due to the centrifugal force of the cyclone 80, and the sludge having a smaller particle size. Is emitted to the top of the cyclone (80).

In order to improve the classification efficiency of the sludge by the cyclone 80, which is a sludge classification device, not only the concentration and pressure of the sludge flowing into the cyclone 80 but also the size and composition of the sludge particles are important factors. It is necessary to derive proper design conditions by directly testing the sludge of blast furnace to be installed.

However, in the composition of sludge, low zinc sludge is similar to the sludge before classification in the particle size, and it can be dehydrated using a dehydrator in the past, but high zinc sludge has fine particles so that it cannot be dehydrated with the conventional dehydrator type. Care must be taken in the type selection.

The sludge treatment apparatus for treating sludge classified by the cyclone 80 constituting the present invention is largely divided into a high zinc sludge treatment unit, a low zinc sludge treatment unit, and a filtrate treatment unit.

First, in the low zinc sludge treatment unit constituting the present invention, among the sludge classified by the cyclone 80, the low zinc sludge is sent to the low zinc storage tank 110 through the lower pipe 82, and then the transfer pump After being pumped and dewatered by the drum filter 140 which is an existing dehydrator by the 130, the cake 141 is transported for reuse as blast furnace raw material.

Next, after the high zinc sludge treatment unit constituting the present invention flows into the settling tank 90 through the upper pipe 81, the high zinc sludge treated from the cyclone 80 is sludged under the settling tank 90. After being sent to the screw decanter 160 which is a high zinc sludge dehydrator through the pipe 150 and dewatered, the cake 161 is transported for landfill.

Finally, in the filtrate treatment unit constituting the present invention, the clear filtrates of the upper part of the dilution tank 30 and the settling tank 90 are supplied to the filtrate storage tank 170 through the pipes 70 and 100, respectively.

In addition, the dehydration liquid separated from the drum filter 140 and the screw decanter 160 is supplied to the filtrate storage tank 170, and the filtrate stored in the filtrate storage tank 170 is reused through the filtrate transfer pump 180. Feedback by pumping to the seeker 10.

Hereinafter, with reference to the flow chart of the de-zinc operation using the de-zinc apparatus according to the present invention of Figure 4, the operation process using the de-zinc apparatus of the present invention configured as described above will be described in detail.

First, in the first step, the sludge collected in the blast furnace wet dedusting machine is adjusted to an optimum classification condition required by the cyclone 80, and then transported to perform pretreatment for dewatering the sludge.

As such an optimum classification condition, the sludge concentration of the dilution tank 30 is 5 to 7%, and the shear pressure of the cyclone 80 is 1.0 to 2.0 bar.

In the second step, the blast furnace sludge is classified by the cyclone 80 into the lower pipe 82 for the low zinc sludge, and the high zinc sludge is classified into the upper pipe 81 for the sludge.

In the third step, the low zinc sludge classified into the lower pipe 82 is dewatered by the drum filter 140, and the high zinc sludge classified into the upper pipe 81 is dewatered by the screw decanter 160. .

Finally, the fourth step, the dewatered cake 141 from the drum filter 140 is transported for reuse as blast furnace raw material, the dewatered cake 161 from the screw decanter 160 is transported for landfill, The filtrate is transferred to the filtrate storage tank 170 and fed back to the seeker (10).

As described in detail above, by using the blast furnace sludge de-zinc apparatus of the present invention, regardless of the concentration of the sludge deposited in the lower portion of the thinner can be arbitrarily adjusted to the concentration required by the cyclone, low zinc sludge as blast furnace raw material Reuse has the effect of saving energy.

In addition, the high zinc and low zinc sludge is transported after dehydration to a dehydrator without discharging the sludge to yards and lagoons, thereby reducing treatment costs and preventing environmental pollution due to sludge disposal.

Claims (4)

The thinner is concentrated in the blast furnace wet cleaner, and the sludge collected in the bottom of the thinner 10 is pumped by the sludge pump 20, and the dilution water is supplemented, and the stirrer 40 is installed. In the sludge de-zinc apparatus which consists of the tank 30 and the cyclone 80 which classifies sludge after pumping diluted sludge by the feed pump 60, Low zinc sludge treatment unit for dewatering low zinc sludge among the sludge classified by the cyclone (80), high zinc sludge treatment unit for dewatering high zinc sludge, and the filtrate generated in the apparatus to the seeker (10) De-zinc apparatus of blast furnace sludge, characterized in that consisting of a filtrate processing unit for feeding back. The low zinc storage tank 110 of claim 1, wherein the low zinc sludge treatment unit receives the low zinc sludge classified by the cyclone 80 through the lower pipe 82 and has a stirrer 120 installed thereon. De-zinc apparatus of blast furnace sludge characterized in that it comprises a drum filter 140 for dewatering by pumping low zinc sludge to the transfer pump (130). According to claim 1, wherein the high zinc sludge treatment unit sedimentation tank 90 receives the high zinc sludge classified by the cyclone 80 through the upper pipe 81, and a screw decanter for dewatering the precipitated sludge ( De-zinc apparatus of the blast furnace sludge, characterized in that configured to include. The filtrate storage tank of claim 1, wherein the filtrate processing unit stores a clear filtrate above the dilution tank 30 and the settling tank 90 and a dehydration liquid separated from the drum filter 140 and the screw decanter 160. And a filtrate transfer pump (180) for pumping the stored filtrate to the seeker (10).