KR20030053614A - An apparatus for filtering cooling water for removing dust in gas of a blast furnace and a method for cleaning gas by using the same apparatus - Google Patents

Abstract

PURPOSE: An apparatus for filtering cooling water in blast furnace gas cleaning facility is provided to remove dust contained in the gas by washing gas discharged along with dust in ironmaking process, and a method for treating blast furnace gas having high dust removing efficiency using the apparatus is provided. CONSTITUTION: In a filtering apparatus(1) installed at blast furnace gas cleaning facility for removing dust contained in blast furnace gas to filter cooling water polluted during dust removing, the apparatus for filtering cooling water in the blast furnace gas cleaning facility enable easy backwashing comprises a body(20) at which cooling water inlet and outlet pipes(12,14) are installed, and to the outer wall of which a guide member(10) is supported; a filtering member(30) vertically movably inserted into the body(20); and a vibration generating means(50) installed in such a structure that an elastic body(40) is interposed between the lower part of the body(20) and the vibration generating means(50) so that the vibration generating means(50) integrally along with the body(20) vibrate the filtering member(30) during operation of the vibration generating means(50), wherein foreign materials of the vibrating filtering member(30) are removed and backwashed by supplying high pressure air and cleaning water to vibrating filtering member(30) through the inlet pipe(12).

Description

Cooling water filtration system of blast furnace gas clean facility which is easy to backwash and blast furnace gas cleaning method using the same USING THE SAME APPARATUS}

The present invention relates to a backwash filtration apparatus for cooling water treatment of a clean facility for removing dust contained in blast furnace gas discharged from a blast furnace operation, and to a blast furnace gas treatment method using the same and increasing dust removal efficiency. It is easy to backwash the filtration device to filter the coolant discharged from the gas clean facility to improve the water quality of the contaminated coolant, and to improve the affinity of the coolant of the dust by using the improved coolant and adding surfactant to the coolant. The present invention relates to a filtration apparatus for increasing dust removal efficiency of blast furnace, and a method for treating blast furnace gas using the same, and for improving dust removal efficiency.

In general, the steelmaking facilities are equipped with a gas cleaning system for washing the dust discharged with the gas with cooling water, the contaminated cooling water used in the gas cleaning equipment is repeated through the filtration step.

However, when the cooling water is repeatedly used in the clean facility used to remove dust contained in the blast furnace gas, suspended solids, which are increased in the cooling water, are attached to the surface of the facility or inside the pipe, thereby preventing the flow of the cooling water. This float causes corrosion of the blast furnace cleanliness.

In particular, when the dust contained in the blast furnace gas is removed by using contaminated cooling water in which the suspended matter is not completely filtered, since the dust in the blast furnace gas cannot be efficiently removed, the burner of the combustion furnace using the blast furnace gas is blocked. It creates additional problems.

As a result, equipment corrosion caused by such untreated and contaminated cooling water causes blast furnace gas to leak to the outside, which greatly affects the operation of the steelmaking plant. There have been several studies on the treatment of contaminated cooling water used in.

For example, the method generally used in cooling water treatment adds a flocculant of the polymer to the cooling water so that the dust is well collected in the water, is precipitated in the sedimentation tank to be discharged out of the system, and the dispersant is added to the rear end of the sedimentation tank to settle the cooling water It is possible to prevent the remaining suspended matter from agglomerating and sticking to the pipe wall.

In addition, Korean Laid-Open Patent Publication No. 89-2426 discloses a method of using a dust removal filter and a cooling water spray nozzle, and Japanese Laid-Open Patent Publication No. 6-31822, which provides a separate collecting internal body in a venturi scrubber. A method has been disclosed, and Korean Patent Laid-Open No. 93-12601 discloses improving a dust treatment method by raising a pH by aeration of a carbon dioxide gas in a blast furnace gas cleaning facility catchment.

However, when the flocculant and the dispersant having opposite functions are used within the limit, the effect is canceled to reduce dust collection efficiency, and when the filter is used, pores of the filter are blocked by various particles.

In addition, in the case of installing a separate collecting internal body in the venturi scrubber, the valve may be clogged by a large amount of dust discharged, and the pH may be increased by aeration of carbon dioxide gas in the cooling water, but it does not have great dust collection efficiency. Will not.

The present invention has been made in order to improve the various problems as described above, the object of the present invention is to facilitate the backwashing of the filtration device for filtering the dust removal cooling water used in the blast furnace gas cleaning equipment, thereby improving the water quality of contaminated cooling water The present invention provides a cooling water filtration device for blast furnace cleanliness that facilitates backwashing.

In addition, another object of the present invention is to increase the dust removal efficiency of the blast furnace gas by adding a surfactant to the cooling water when treating the contaminated cooling water discharged from the blast furnace gas clean facility to increase the cooling water affinity of the dust, and at the same time to add a scale inhibitor It is to provide a blast furnace gas treatment method that effectively prevents the generation of pipe scale.

1 is a process diagram showing a blast furnace gas treatment process for removing dust in the gas generated during blast furnace operation according to the present invention.

Figure 2 is an exploded perspective view showing an easy backwashing filter device according to the present invention

3 is a structural diagram showing the present invention filtration device

4 is a schematic diagram illustrating equipment for an embodiment of the invention.

Explanation of symbols on the main parts of the drawings

1 ... Filter for easy backwashing 10 ... Guide member

20 ... Body 30 ... Filter element

40 ... elastic body 50 ... vibration generating means

100 .... Goro 110 .... Dust Catcher

130 .... Venturi scrubber 150 ... Sedimentation tank

G .... blast furnace gas G '.... treated blast furnace gas

W .... coolant W '.... contaminated coolant

As a technical aspect for achieving the above object, the present invention is installed in a blast furnace gas clean facility for removing the dust contained in the blast furnace gas in the filtration apparatus for filtering the contaminated cooling water during dust removal, the cooling water inlet and discharge pipe The body is installed and the guide member is supported on the outside; And,

A filtration member inserted into the body to enable a vertical flow; And,

Vibration generating means for vibrating the filtration member integrally with the body during operation is installed through the elastic body on the lower side of the body; foreign matters of the filtration member vibrating when supplying high-pressure air and washing water through the inlet pipe By removing the backwashing is configured to provide a cooling water filtration device of the blast furnace cleanliness easy installation.

In another aspect, the present invention, the step of removing the dust discharged from the blast furnace and contained in the blast furnace gas through the dust catcher to the cooling water in the venturi scrubber; Wow,

Precipitating the dust collected in the cooling water in the settling tank; And,

Filtering the cooling water having passed through the settling tank by a filtration device having a high filtration efficiency by periodic backwashing; and,

Adding a surfactant and an antiscaling agent to the filtered cooling water; And,

Surfactant is added to increase the cooling water affinity of the dust and supply the clean cooling water filtered with high efficiency to the venturi scrubber to efficiently remove the dust of the blast furnace gas; using a backwash easy filter and dust By blast furnace gas cleanup method with improved removal efficiency.

Hereinafter, the filter device of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows an exploded perspective view of a filtration device for easy backwashing according to the present invention, and Figure 3 shows a structural view of the filtration device of the present invention.

That is, as shown in Figures 2 and 3, the filtration device 1 of the present invention is a filtration device that is easy to periodically backwash for improving the water quality of the contaminated cooling water, the filtration device of the present invention ( 1) is composed of the body 20, the filtration member 30 and the vibration generating means 50, each of these components 20, 30, 50 will be described in detail as follows.

First, the filtration device body 20 of the present invention is provided with an inlet tube 12 and an outlet tube 14 through which the coolant (W) is introduced into one side of the upper and lower sides thereof. It is to be supported by the provided guide member 10 to facilitate the vibration operation described below.

At this time, as shown in Figure 3, the inlet pipe 12 is a distribution pipe (12a) is installed and the cooling water (W ') through the settling tank is introduced through one side pipe (12b), the filtration apparatus 1 In the case of backwashing, the washing water is introduced through the other pipe 12c. However, the present invention is not limited thereto, and a distributor is installed in the discharge pipe 14 to supply the washing water back to perform backwashing of the filtration member 30. It will be possible.

That is, as shown in Figures 2 and 3, the filtering device body 20 is formed of a hollow cylindrical body in which the cover 22 is bolted to the top, the guide member 10 is a flange 12a 12b is provided with a pair of semi-circular guide plates 14a and 14b which are cooperatively assembled so that the body 10 can be supported in a vertical flow.

At this time, the guide rail portion 24 fixed to the body 20 is seated and supported inside the guide plate 14 so that the guide groove 16 for guiding the up and down vibration of the body 20 is integrally formed. When the filtration device body 20 is vibrated up and down by the operation of the vibration generating means 50 to be described below, the body 20 is prevented from being twisted or removed to one side by the guide member 10. This is because the elastic body, that is, between the body 20 and the vibration generating means 50 is elastically connected by a plurality of springs (40).

In addition, the filtration member 30 is inserted to enable the vertical flow in the interior of the body 20, the cover 22 of the body 20 is removed and inserted therein, such a filtration member 30 ), Which is formed in a bellows shape, becomes compact as it shrinks when the cooling water flows in, and filters the cooling water, and when the vibration is generated, facilitates the external discharge of the foreign matter, which is smoothly caught by the up and down flow, thereby backwashing the filtration device 1. To facilitate.

On the other hand, the upper and lower sides of the filtration member 30, the multi-parking plate 32, 34 is provided to prevent the filtration member 30 to be biased to one side, the filtration member 30 and each of the multi-parking plate 32 34 is the elastic body 36 to prevent the separation in the center, that is, the spring is connected so that the spring 36 is contracted when the cooling water supply, expands when the cooling water supply is stopped to facilitate the removal of foreign substances in the filtration member 30 Let's do it.

At this time, the filtration member 30 is formed of an acetyl cellulose material which has elasticity, a long service life, and a large filtering effect.

On the other hand, the vibration generating means 50 of the filtration device 1 of the present invention is installed through the elastic body 40 on the lower side of the body 20, the filter member 30 integrally with the body 20 during operation. It is configured to vibrate.

That is, as shown in Figures 2 and 3, the vibration generating means 50, the casing 52 provided on the bottom plate (10a) of the guide member 10 and the inside of the casing 52 A conversion cam 56 installed to drive the motor 54 and a plurality of springs 40 which are elastic bodies on the upper side of the conversion cam 56 are connected to the body 20 to enable vertical vibration of the body 20. The diaphragm 58 is provided.

At this time, although schematically shown in the drawing, the motor 54 is periodically operated as a timer through a control unit for a predetermined time to vibrate the body 20 and the filtering member 30, while the high pressure through the washing water supply pipe 12c. When the air or washing water of the filter member 30 in the body 20 passes through to remove and remove the foreign substances caught in the filter member 30 more smoothly, the filtration device 1 of the present invention is easy to backwash, This effectively improves the water quality of the cooling water through the filtration device 1, thereby treating the blast furnace gas with a cleaner cooling water, thereby increasing the dust removal efficiency of the blast furnace gas.

Next, the blast furnace gas cleaning method of the present invention will be described.

1 shows a blast furnace gas cleaning process of the present invention as a process diagram.

That is, as shown in Figure 1, among the dust of the blast furnace gas (G) from the blast furnace 100, the first heavy dust particles by the expansion and gravity of the gas flow path from the dust catcher 110 falls to the dust The discharge tank 120 is removed and discharged, the dust of the light and fine particles are sent to the venturi scrubber (130a) (130b) together with the blast furnace gas (G).

Next, the blast furnace gas (G) passing through the venturi scrubber 130 is washed with the dust contained by the cooling water (W) injected therein, unburned gas generated by incomplete combustion of pulverized coal during blast furnace operation Since the particles are light and have poor contact with water, they may easily pass through the venturi scrubber 130 together with the gas without being easily washed by the cooling water.

Therefore, as shown in FIG. 1, in the present invention, by injecting a surfactant into the cooling water (W) to smoothly wash the particles having a weak hydrophilicity as the cooling water (W), by increasing the cooling water affinity of the dust by the cooling water of the dust It is to increase the dust collection efficiency.

That is, when the conventional surfactant is not added, the water affinity of the dust is low, so that it is often suspended in the cooling water, and the dust removal rate of the fine particle size contained in the blast furnace gas was low.

At this time, the surfactant used in the present invention adds about 5ppm of sodium naphthalin or sodium soap to the cooling water (W) circulated through the filtration device 1 is supplied to the venturi scrubber (130).

Next, the cooling water W to which the surfactant is added is injected from the venturi scrubber 130 to collect dust and is sent to the settling tank 150a and 150b in a contaminated state (W ').

At this time, in the primary precipitation tank 130a, a flocculant of ordinary polyacrylamide and a precipitate of alum are added to allow the dust contained in the cooling water to precipitate quickly.

Next, the cooling water W 'having passed through the secondary sedimentation tank 130b is filtered through the backwashing filtration device 1 of the present invention shown in FIGS. 2 and 3 to filter the suspended solids remaining in the cooling water. .

At this time, the backwashing of the filtration device (1) is repeatedly performed at a cycle of 4 hours / day, and the filtered cooling water (W) passing through the filtration device (1) is PBTC, which is an anti-scaling agent instead of a conventional dispersant in the present invention. (2-phosphonobutane-1,2,4-tricarboxylic acid) or HEDP (1-hydroxyexylidene-1,1-diphosphonic acid) was added to chemisorb the calcium carbonate particles Calcium salt form changes its crystal structure to give very weak cohesion to prevent hard scale formation.

Hereinafter, an embodiment of the present invention will be described.

(Example)

The present embodiment was performed using the facilities shown in FIG. 4, but instead of the blast furnace 100 of FIG. 1, the air cylinder 200 and the dust catcher 110 are connected to the dust tank 212. In order to pass through the flow meter 202, and to install the test column 110 in the pipe (2) connected to the filtration device (1) and the pump (P) of the present invention to test the scale adhesion by the coolant. It was.

In addition, the pipe 2 is connected to the venturi scrubber 130 of FIG. 1, the venturi scrubber 130 is connected to the filtration device 1 via the settling tank 150, and the venturi scrubber 130 is It is connected to the gas holder 140.

In addition, the air was flowed at a flow rate of 20 liters / minute, and the dust was supplied 2 g / min to maintain a concentration of 0.1 g / liter, which is the same solid / gas ratio as the actual process.The cooling water used in the actual process was 10 liters. Was collected and recycled at a flow rate of 20 liters / minute in the gas cleaning equipment of this example.

In addition, the blast furnace gas (G) passing through the venturi scrubber (130a) (130b) before and after adding the surfactant to the cooling water was collected and analyzed in the amount of dust in the gas shown in Table 1 below.

division Processing count Suspended solids concentration (mg / l) Foreground (mg / l) Turbidity (NTU) Before using surfactant 1 2 3 4 5 6 7 8 9 10 23342945422743334125 244312245367324251295242321236 62656472696368667163 After use of surfactant 1 2 3 4 5 6 7 8 9 10 7121714191821161917 31342725312225182119 7910981115121314

That is, as can be seen in Table 1, it can be seen that when the surfactant is added, the dust concentration in the blast furnace gas is reduced to 19 mg / N ㎥ or less.

In addition, in the case of using the dispersing agent and the anti-scaling agent commonly used in the cooling water was compared, the test column 220 is installed at the inlet of the venturi scrubber 130 to measure the adhesion degree through the coupon installed inside the It was measured, as shown in Table 2 below.

division Adhesion (MCM) Corrosion degree (MDD) When using dispersant 29.27 55.94 When using scale inhibitor 1.09 10.97

That is, as can be seen in Table 2, when using the scale inhibitor of the present invention instead of the conventional dispersant it was found that the adhesion and corrosion degree is greatly reduced.

Finally, the turbidity of the cooling water passed through the filtration device 1 of the present invention was measured, which is shown in Table 3 below.

division Turbidity (FTU) Before installing the filtration device 73 After installing the filtration device 3

As can be seen from Table 3, it can be seen that the turbidity of the cooling water is significantly improved when the filtration device 1 of the present invention is used.

Thus, according to the present filtration device 1 and the blast furnace gas cleaning method using the same, the dust removal efficiency is increased, dust collection efficiency of the blast furnace gas is increased by affinity with the cooling water by using the cooling water to which the surfactant is added. It is possible to produce high quality blast furnace gas, which is an advantage of preventing the clogging of the burner by using the blast furnace gas as fuel.

In addition, by using the anti-scaling agent and the filtration device 1 which is easy to backwash, the water quality of the cooling water is improved to increase the gas cleaning efficiency, and to reduce the amount of cooling water used, in particular to extend the life of the gas cleaning equipment. It is to provide an excellent effect.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that those who have knowledge of this can easily know.

Claims (5)

In the filtration device (1) installed in the blast furnace gas clean facility for removing the dust contained in the blast furnace gas to filter the contaminated cooling water during dust removal, Cooling water inlet and outlet pipes 12, 14 is installed and the outer body 20 is supported the guide member 10; And, A filtration member 30 inserted into the body 20 to enable vertical flow; and, And a vibration generating means (50) which is installed on the lower side of the body (20) via an elastic body (40) to vibrate the filtration member (30) integrally with the body (20) during operation. Cooling water filtration device of the blast furnace gas cleaning equipment easy to backwash, characterized in that the foreign matter of the filtration member 30 vibrating when supplying high-pressure air and washing water through the 12 is removed to backwash The method of claim 1, wherein the filter body 20 is formed of a hollow cylindrical body in which the cover 22 is bolted to the top, The guide member 10 is composed of a pair of semi-circular guide plate (14a) (14b) is provided with a flange (12a, 12b) is cooperatively assembled, the inside of the guide plate 14 to the body 20 Cooling water filtration device of the blast furnace gas clean facility easy to backwash, characterized in that the guide rail portion 24 is fixed to the seat support is formed integrally with the guide groove 16 for guiding the up and down vibration of the body 20 The method of claim 1, wherein the filtering member 30 is formed in a bellows shape, the upper and lower sides of the multi-parking plate 32, 34 is provided, the filtering member 30 and each of the multi-parking plate 32, 34 Connected to an elastic body 36 vertically disposed at the center, Cooling water filtration device of the blast furnace gas clean facility, characterized in that the filtration member 30 is formed of acetyl cellulose material According to claim 1, wherein the vibration generating means 50, A casing installed on the bottom plate 10a of the guide member 10; A conversion cam 56 installed to drive the motor 54 inside the casing 52; And, Furnace gas clean, characterized in that consisting of; a diaphragm 58 is connected to the body 20 by a plurality of springs 40 which are elastic bodies to the upper side of the conversion cam 56 to enable the vertical vibration of the body 20 Cooling water filtration of equipment Removing the dust discharged from the blast furnace and contained in the blast furnace gas through the dust catcher with cooling water from a venturi scrubber; Precipitating the dust collected in the cooling water in the settling tank; And, Filtering the cooling water having passed through the settling tank by a filtration device having a high filtration efficiency by periodic backwashing; and, Adding a surfactant and an antiscaling agent to the filtered cooling water; and Surfactant is added to increase the cooling water affinity of the dust and supply the clean cooling water filtered with high efficiency to the venturi scrubber to efficiently remove the dust of the blast furnace gas; using a backwash easy filter and dust Method for Cleaning Furnace Gas with High Removal Efficiency