JP6019674B2 - How to clean the filter press - Google Patents

Description

  The present invention relates to a filter press cleaning method for cleaning a filter press filter cloth and a filter plate with a cleaning liquid, and more particularly to a filter press cleaning method to which a scale such as calcium carbonate is attached.

  Filter presses are widely used for dewatering sludge and the like. When the filter plate of the filter press becomes clogged or stayed, the filter cloth is torn and the dewatering efficiency is deteriorated. Therefore, frequent cleaning is required. Cleaning a filter press requires a large amount of washing water, which is expensive, and is often a problem. The filter press incorporates a device for cleaning the filter cloth and the filter plate, but it is often not sufficient. In addition, some of the cleaning devices inject cleaning water onto the filter cloth from the upper side to the lower side of the filter plate. However, since the filter cloth is cleaned rather than cleaning the filter plate, May not be sufficient.

  Patent Documents 1 and 2 describe that a filter unit of a filter press is cleaned with a cleaning liquid containing an acidic cleaning agent. In Patent Document 1, a cleaning liquid containing this acidic cleaning agent is filled in a filtration unit and left for a predetermined time to dissolve scales such as calcium carbonate attached to a filter cloth or a filter plate.

JP-A-61-222513 5-9607

  In Patent Documents 1 and 2, since the cleaning liquid contains an acidic cleaning agent, there is a possibility that the filter cloth, the filter plate, or the peripheral equipment may be corroded by contact with the cleaning liquid.

  Further, the conventional cleaning liquid permeates through the filter cloth in a short-circuit manner even when it is brought into contact with the filter cloth, and also immediately flows down when brought into contact with the filter plate. Therefore, a large amount of cleaning liquid is required to sufficiently dissolve and remove the scale such as calcium carbonate attached to the filter cloth and the filter plate.

  It is an object of the present invention to provide a filter press cleaning method capable of sufficiently cleaning a filter cloth, a filter plate, or peripheral equipment without corroding. Another object of the present invention is to provide a filter press cleaning method capable of sufficiently cleaning a filter cloth and a filter plate even with a relatively small amount of cleaning liquid used.

The filter press cleaning method of the present invention is a filter press cleaning method for filtering an inorganic slurry generated in a steelmaking process or a steelmaking process, and includes a filter cloth and a filter plate holding the filter cloth. in a filter press cleaning method for cleaning the filtrate cloth and filter plate of the filter press by the cleaning liquid, the cleaning liquid is characterized in that seen containing a chelating agent free of detergent acid.

  This washing solution may further contain a suspended substance. As this suspended substance, a substance mainly composed of silicon dioxide is suitable.

  As the chelating agent, an amine compound having a carboxyl group and a hydroxyl group is preferable, and hydroxyethyliminodiacetic acid or a salt thereof is particularly preferable.

  In the filter press cleaning method of the present invention, since the cleaning liquid contains a chelating agent as a cleaning agent, corrosion of the filter cloth and the filter plate due to contact with the cleaning liquid is sufficiently prevented or suppressed, and Scales such as calcium carbonate adhering to the filter cloth and the filter plate can be sufficiently dissolved and removed by the cleaning liquid.

  In the filter press cleaning method of the present invention, when the cleaning liquid contains a suspended substance, when the cleaning liquid is brought into contact with the filter cloth and the filter plate, the surface of the filter cloth and the filter plate and the filter cloth The cleaning liquid tends to stay inside. Therefore, even with a relatively small amount of cleaning liquid used, the cleaning liquid can be sufficiently brought into contact with the entire filter cloth and filter plate. As a result, the filter cloth and the filter plate can be cleaned sufficiently and efficiently even with a relatively small amount of cleaning liquid used.

  When a cleaning solution containing a chelating agent is used for cleaning a filter press for filtering high concentration inorganic slurry mainly composed of iron generated in the iron making process or the steel making process, nitrogen atoms and oxygen atoms in the chelating agent are The chelating agent is consumed due to the coordinate bond with the iron ions in the slurry. Therefore, when the method of the present invention is applied to such a filter press cleaning, it is preferable to use a suspended substance mainly composed of silicon dioxide. Silicon dioxide is an inert molecule with respect to the chelating agent, and by adding a suspended substance mainly composed of silicon dioxide to the cleaning solution, consumption of the chelating agent in the cleaning solution can be suppressed.

  By using an amine compound having a carboxyl group and a hydroxyl group as the chelating agent, it is possible to effectively dissolve and remove scales such as calcium carbonate attached to the filter cloth and the filter plate.

  Embodiments of the present invention will be described below.

  The cleaning liquid used in the method of the present invention contains a chelating agent as a cleaning agent, and may further contain a suspended substance.

As the chelating agent, an amine compound having a carboxyl group and a hydroxyl group is preferable. More specifically, examples of the chelating agent include EDTA, EDTA-4Na · 4H ₂ O, L-aspartic acid-N, N-tetraacetic acid tetrasodium, hydroxyethyliminodiacetic acid, and hydroxyethyliminodiacetic acid disodium. Hydroxyethyliminodiacetic acid salt is preferred, among which hydroxyethyliminodiacetic acid or a salt thereof, particularly, disodium hydroxyethyliminodiacetic acid is preferred. By using such a chelating agent, scales such as calcium carbonate adhering to the filter cloth and the filter plate can be dissolved and removed effectively. The chelating agent is not limited to this. Two or more chelating agents may be used in combination.

  The concentration (main component concentration) of the chelating agent in the cleaning liquid is preferably 0.1 to 20% by weight (hereinafter sometimes abbreviated as wt%), and particularly preferably 1 to 10% by weight. In addition, the density | concentration of this chelating agent is suitably changed according to the amount of scales adhering to the filter cloth and the filter plate.

  Water is suitable as a base solution (solvent for the chelating agent) of this cleaning solution.

  The suspended substance is preferably mainly composed of a substance that is inert to the chelating agent. More specifically, the suspended material is preferably composed mainly of silicon dioxide, such as sand (particularly quartz sand), crushed stone powder, converter slag, diatomaceous earth, and the like. By containing a suspended substance mainly composed of silicon dioxide, for example, a filter press is used for filtering a high-concentration inorganic slurry mainly composed of iron generated in a steelmaking process or a steelmaking process. It is possible to prevent or inhibit the chelating agent in the cleaning liquid from being consumed due to coordination bonds with iron ions in the slurry. The suspended substance is not limited to the above.

  The average particle size of the suspended substance is preferably 0.1 to 500 μm, particularly 10 to 100 μm. The amount of the suspended substance added to the washing solution is preferably 10,000 to 400,000 mg / L, particularly 200,000 to 300,000 mg / L.

  In addition to the chelating agent and the suspended substance, additives (for example, an aggregating agent, a surfactant, a scale inhibitor, etc.) may be appropriately added to the cleaning liquid used in the method of the present invention as necessary.

  Next, the procedure for cleaning the filter press according to the method of the present invention will be described.

  First, for example, a chelating agent, a suspended substance and a solvent (and other necessary additives) are mixed using a stirrer in a dissolution tank, and each component is appropriately selected according to the amount of scale attached to the filter cloth and filter plate. The concentration of the liquid is adjusted to produce a cleaning solution. Next, this cleaning liquid is press-fitted into the filter press through the slurry supply channel and the slurry pump. As a result, the cleaning liquid flows through the filter press and dissolves the scale such as calcium carbonate attached to the filter cloth or the filter plate. At that time, the nitrogen atoms and oxygen atoms in the chelating agent are coordinated with calcium ions, so that the scales such as calcium carbonate attached to the filter cloth and the filter plate are dissolved.

  The cleaning liquid supply system to the filter press is preferably configured to return the filtrate that has passed through the filter press to the upstream side of the filter press and press-fit the filter press again into the filter press. Thus, by circulating the cleaning liquid and repeatedly supplying it to the filter press, the drug component can be used without waste.

  The cleaning time of the filter press is preferably 1 to 24 hours, particularly 5 to 20 hours.

  During the cleaning of the filter press, the chelating agent in the cleaning solution is consumed as the scale dissolves, so that the chelating agent is added to the cleaning solution as appropriate.

  In the cleaning method of the filter press according to the present invention, the suspended liquid is contained in the cleaning liquid, so that when the cleaning liquid is brought into contact with the filter cloth and the filter plate as compared with the conventional cleaning liquid, the filter is filtered. The cleaning liquid tends to stay on the surface of the cloth and the filter plate and inside the filter cloth. Therefore, even with a relatively small amount of cleaning liquid used, the cleaning liquid can be sufficiently brought into contact with the entire filter cloth and filter plate. As a result, the filter cloth and the filter plate can be cleaned sufficiently and efficiently even with a relatively small amount of cleaning liquid used.

  Hereinafter, examples and comparative examples will be described.

[Corrosion / corrosion resistance test]
Using the cleaning liquids of the following (1) to (5), the corrosiveness of the cleaning liquid to a test piece made of steel was tested under the following conditions.
(1) EDTA-4Na · 4H ₂ O aqueous solution (main component concentration 10 wt%)
(2) L-aspartic acid-N, N-tetrasodium tetraacetate aqueous solution
(Main component concentration 10wt%)
(3) Hydroxyethyliminodiacetic acid disodium aqueous solution
(Main component concentration 10wt%)
(4) Acidic solution (acid component: hydrochloric acid, pH 0.6)
(5) No drug (pure water)
Test piece: FC200 (50 x 30 x 1 mm)
Period: 14 days
Temperature: 40 ° C

The test method is as follows.
i) Take a picture of the test piece and measure its weight.
ii) Add 50 mL of cleaning solution to a 100 mL beaker.
iii) Immerse the test piece in the cleaning solution of ii) so that it is in a semi-immersed state, and leave it in a constant temperature bath at 40 ° C. for 14 days.
iv) Take out the test piece and lightly rinse it with ultrapure water, and then remove rust with hydrochloric acid + anticorrosive solution.
v) Check the appearance and weight of the test piece, and confirm the effect on FC200 by comparing with the test piece.

[Filter cloth cleaning test]
The used filter cloth was washed with the following washing liquids (1) to (3) and (5), and the washing effect was observed.
(1) EDTA-4Na · 4H ₂ O aqueous solution (main component concentration 10 wt%)
(2) L-aspartic acid-N, N-tetrasodium tetraacetate aqueous solution
(Main component concentration 10wt%)
(3) Hydroxyethyliminodiacetic acid disodium aqueous solution
(Main component concentration 10wt%)
(5) No drug (pure water)

The method for washing the filter cloth is as follows.
1) The filter cloth cut into a predetermined size is dried at 105 ° C. for 2 hours, and the weight is measured.
2) Add 100 g of the cleaning solution to a 100 mL beaker.
3) The filter cloth after drying of 1) is fixed in the beaker of 2) so as to be fully immersed, and stirred for 18 hours.
4) After stirring, the filter cloth is taken out, dried at 105 ° C. for 2 hours, and the weight is measured.

[Dissolution test of the scale attached to the filter plate]
The used filter plate was washed with a mixture of the following washing liquids (1) to (3) and the following slurry, and the washing effect was observed.
(1) EDTA-4Na · 4H ₂ O aqueous solution (main component concentration 10 wt%)
(2) L-aspartic acid-N, N-tetrasodium tetraacetate aqueous solution
(Main component concentration 10wt%)
(3) Hydroxyethyliminodiacetic acid disodium aqueous solution
(Main component concentration 10wt%)
Slurry A: Slurry mainly composed of iron after the extraction of converter dust collection water thickener
(SS concentration 25w / v%)
Slurry B: Slurry made of standard sand (main component: silicon dioxide)
(SS concentration 25w / v%)

The cleaning method is as follows.
1) 100 g of a mixture of 50 g of the cleaning solution and 50 g of the slurry is put into a 100 mL beaker.
2) The filter plate with the scale attached is dried at 105 ° C. for 2 hours to obtain a test piece with a dry scale of 0.5 g attached.
3) Fix each test piece in the beaker of 1) so that the scale is fully immersed, and stir for 18 hours.
4) After stirring, the test piece is taken out and dried at 105 ° C. for 2 hours.
5) After drying, measure the weight of the test piece and calculate the weight dissolution rate (wt%) of the scale.

[Effect confirmation test on filter cloth of slurry with added detergent]
About the liquid mixture of the washing | cleaning liquid of following (1)-(3), and the following slurry, the filtration characteristic by a filter cloth was tested.
(1) EDTA-4Na · 4H ₂ O aqueous solution (main component concentration 10 wt%)
(2) L-aspartic acid-N, N-tetrasodium tetraacetate aqueous solution
(Main component concentration 10wt%)
(3) Hydroxyethyliminodiacetic acid disodium aqueous solution
(Main component concentration 10wt%)
Slurry A: Slurry mainly composed of iron after the extraction of converter dust collection water thickener
(SS concentration 25w / v%)
Slurry B: Slurry made of standard sand (main component: silicon dioxide)
(SS concentration 25w / v%)

The test method is as follows.
i) 100 g of a mixture of 50 g of the cleaning solution and 50 g of the slurry is put into a 100 mL beaker.
ii) The mixture is stirred for 18 hours.
iii) Using a new filter cloth, measure the vacuum filtration time of the liquid after stirring.

  The results of each of the above tests are shown in Table 1.

  From Table 1, it was recognized that the filter cloth and the entire filter plate of the filter press can be washed with the washing liquid containing the chelating agent and the washing liquid water containing the chelating agent and the suspended substance. It was also found that the use of a chelating agent can be performed without damaging the filter cloth or filter plate and without corroding the peripheral equipment of the filter press. Furthermore, it was also recognized that the mixed solution of the chelating agent and the suspended substance does not cause problems such as clogging with respect to the filter cloth.

Claims (5)

A filter press cleaning method for filtering inorganic slurry generated in a steelmaking process or a steelmaking process,
In the filter press cleaning method of cleaning the filter cloth and the filter plate of the filter press having a filter cloth and a filter plate holding the filter cloth with a cleaning liquid,
The wash viewed contains a chelating agent, filter press cleaning method characterized in that it contains no detergent acid.   2. The method of cleaning a filter press according to claim 1, wherein the cleaning liquid contains a suspended substance.   3. The filter press cleaning method according to claim 2, wherein at least a part of the suspended substance is mainly composed of silicon dioxide.   4. The filter press cleaning method according to any one of claims 1 to 3, wherein the chelating agent is an amine compound having a carboxyl group and a hydroxyl group.   5. The filter press cleaning method according to claim 1, wherein the chelating agent is hydroxyethyliminodiacetic acid or a salt thereof.