KR102077783B1 - Method for reducing ratio of water include paint sludge - Google Patents

Abstract

The present invention relates to a method for reducing the water content in paint sludge generated in a painting booth. The method for reducing the water content in paint sludge according to the present invention can reduce the water content in paint sludge by 10% or more compared to conventional treatment methods by treating a water-soluble chitosan derivative, which is a viscosity remover, and an anionic flocculant in multiple steps. In addition, the method is eco-friendly by using the water-soluble chitosan derivative as the viscosity remover.

Description

Method for reducing ratio of water in paint sludge

The present invention relates to a method for reducing the water content in the paint sludge, and more particularly, to a method for reducing the water content in the sludge generated in the process of treating the overflowed paint in a paint booth or the like.

Automotive parts, machinery, industrial products and parts are generally subjected to painting and coating processes in order to achieve commercialization. To this end, in the area of so-called spray booth, after pre-processing of washing, washing, and drying of an object Painting will be applied.

When using a method of spraying liquid paints such as organic solvent paints or water-based paints such as epoxy, urethane, enamel, lacquer, etc., among various methods carried out for painting, it is usually used on the back side of the object to remove oversprayed paint. A method of installing a water wall to remove air and remove paint has been used.

The oversprayed paint waste is included in the circulating water to collect it and circulates. Since the paint is a viscous material, it easily forms agglomerates, adheres and accumulates in the circulating water to form a sludge with the same sticky and sticking properties. The sludge closes the pumps and pipes of the circulating water system, causing process problems, and a paint viscous remover is used to prevent this phenomenon. Sludge pretreated with a paint viscous remover is agglomerated using a flocculant and treated with a flotation agent to remove the upper layer.

In this way, the sludge inevitably generated in the process of processing the over-sprayed paint in the paint booth continues to increase with the increase in the amount of work, and the cost incurred in the process of processing it causes the production cost of the enterprise. In particular, the greater the amount of moisture contained in the generated sludge, the longer the dehydration time, and problems such as environmental pollution in the process of treating odors.

Accordingly, the development of a technique for minimizing the amount of sludge generated in the process of treating oversprayed waste in the paint booth is required, and in particular, the development of a technique capable of reducing the water content in the sludge is required.

In this regard, studies have been conducted to evaluate the effect of sludge dehydration using cationic and nonionic polymers, and studies have been conducted on concentration systems using iron salts and amphoteric polymer flocculants.

However, these prior art techniques do not improve the cohesion efficiency by using a single coagulant or by changing the cohesive system, but improve coagulation flocs through the complementary effects of coagulants or the use of drugs with different charges. There is a disadvantage in that it is difficult to apply to the generalized coagulation treatment.

The present invention was devised to solve the above problems, and the object of the present invention is to treat water-soluble chitosan derivatives and anionic flocculants, which are viscous removers, in multiple stages in a partitioned water collection tank, thereby improving the water content in the paint sludge generated in the paint booth. It is to provide a method that can be effectively reduced.

In order to achieve the above object, the present invention is to prepare a pre-treated water by adding a water-soluble chitosan derivative to the circulating water;

Flowing the paint sludge in which the pre-treatment water and paint are mixed into a collection tank divided into a plurality of treatment areas;

In the first treatment region of the water collection tank, adding 0.01 to 10 parts by volume of a water-soluble chitosan derivative to 100 parts by volume of the paint sludge to obtain a viscous paint sludge;

Forming a primary paint sludge aggregate by adding 0.01 to 10 parts by volume of anionic flocculant to 100 parts by volume of the paint sludge from which the viscosity has been removed in the second treatment region of the water collection tank;

Forming a secondary paint sludge aggregate by adding 0.01 to 10 parts by volume of an anionic flocculant to 100 parts by volume of the paint sludge containing the primary paint sludge aggregate in the third treatment region of the water collection tank;

Separating the secondary paint sludge aggregate and the residual solution; And

It provides a method for reducing the water content in the paint sludge, characterized in that it comprises the step of mixing the residual solution in the circulating water.

The water-soluble chitosan derivative may be characterized as being a quaternary chitosan amine salt.

The pre-treated water may be characterized in that 0.01 to 10 parts by volume of water-soluble chitosan derivative is added with respect to 100 parts by volume of circulating water.

The water collecting tank includes a plurality of partition walls that partition the processing region,

The partition wall is spaced apart from one side of the inside of the water collection tank, and the first partition wall to allow the paint sludge to flow in one side direction,

And a second partition wall positioned to be spaced apart from the other side of the water tank to allow the paint sludge to flow in the other side direction,

The first partition wall and the second partition wall may be sequentially spaced apart to partition the first to third processing regions and to allow the paint sludge to flow in a zigzag manner.

The anionic flocculant may be characterized in that it is a copolymer comprising any one or more monomers selected from the group consisting of acrylic acid, methacrylic acid, itaconic acid, maleic acid, fumaric acid and salts thereof.

The method for reducing the water content in the paint sludge according to the present invention is capable of reducing the water content in the paint sludge by 10% or more compared to the conventional treatment method by treating the water-soluble chitosan derivatives and anionic flocculants, which are viscous removers, in a multi-step in a compartment. It works.

In addition, there is an eco-friendly advantage by using a water-soluble chitosan derivative as a viscous remover.

1 is a schematic diagram of a process for treating a paint sludge according to the present invention.
Figure 2 is a schematic diagram of the upper observation structure of the partitioned water collecting tank according to the present invention.

Hereinafter, the present invention will be described in detail. Terms or words used in the present specification and claims should not be interpreted as being limited to ordinary or lexical meanings, and the inventor can appropriately define the concept of terms in order to best describe his or her invention. Based on the principle that it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

The present invention relates to a method for reducing water content in paint sludge, and more particularly, to a method for reducing water content in paint sludge generated in a paint booth or the like.

The painting booth is a space where painting is performed, and is widely used to perform a painting process in the commercialization process of automobiles, machinery, industrial products, and parts.

Among the various painting methods used in the painting process, when a method of spraying liquid paint is used, a water curtain is installed on the back of the object to remove the oversprayed paint, and the air is cleaned and the paint is removed. Is being used.

In the case of the above method, the air in the booth where the over-sprayed paint is present is forcibly exhausted, and the forced exhaust air passes through the water curtain before exiting the painting booth. The paint to be collected is collected by scrubbibg with water (circulating water) on the water wall.

In the purified water in which the overspray paint is collected, the viscous paint is easily agglomerated, adhered, and accumulated to form a sludge having the same sticky and sticking property, and a viscous remover and flocculant are added in the sludge to treat it. .

In general, the viscous remover and coagulant are simultaneously introduced into the paint sludge. In this way, the agglomerated paint sludge is often aggregated on the base wall and has a high moisture content in the sludge, which consumes a lot of cost in the process of treating it and causes environmental problems. Causes

The present invention provides a method of reducing the water content in the paint sludge by treating the water-soluble chitosan derivative and the anionic flocculant in multiple stages as a viscous remover.

The present invention is to prepare a pre-treated water by adding a water-soluble chitosan derivative to the circulating water;

Flowing the paint sludge in which the pre-treatment water and paint are mixed into a collection tank divided into a plurality of treatment areas;

In the first treatment region of the water collection tank, adding 0.01 to 10 parts by volume of a water-soluble chitosan derivative to 100 parts by volume of the paint sludge to obtain a viscous paint sludge;

Forming a primary paint sludge aggregate by adding 0.01 to 10 parts by volume of anionic flocculant to 100 parts by volume of the paint sludge from which the viscosity has been removed in the second treatment region of the water collection tank;

Forming a secondary paint sludge aggregate by adding 0.01 to 10 parts by volume of an anionic flocculant to 100 parts by volume of the paint sludge containing the primary paint sludge aggregate in the third treatment region of the water collection tank;

Separating the secondary paint sludge aggregate and the residual solution; And

It provides a method for reducing the water content in the paint sludge, characterized in that it comprises the step of mixing the residual solution in the circulating water.

First, the first step of the water content reduction method in the paint sludge according to the present invention is a step of preparing a pretreated water by adding a water-soluble chitosan derivative to the circulating water.

The circulating water means water used to collect paint.

In general, paint is mixed with circulating water itself to form a paint sludge, but the present invention is characterized in that water-soluble chitosan derivatives are added to circulating water to prepare pre-treated water, and the prepared pre-treated water and paint are mixed to form paint sludge. Have

The pre-treated water may be characterized in that 0.01 to 10 parts by volume of water-soluble chitosan derivative is added with respect to 100 parts by volume of circulating water.

Specifically, with respect to 100 parts by volume of the circulating water, 0.01 to 10 parts by volume of the water-soluble chitosan derivative may be added, preferably 0.05 to 1 parts by volume, and more preferably 0.1 to 0.5 parts by volume You can.

When the water-soluble chitosan derivative is added below the above-described range, the viscosity of the paint remaining in the remaining solution may not be removed when the remaining solution from which paint sludge aggregates are removed may be removed later. The water-soluble chitosan derivative, which is a time-removing agent, is unnecessarily consumed, which can increase treatment cost.

In addition, the prepared pre-treatment water contains a water-soluble chitosan derivative, which is a viscous remover, and thus, when the paint is mixed, the viscosity of the paint is primarily removed to increase the viscosity removal efficiency.

The next step is a step of introducing paint sludge in which the pre-treatment water and paint are mixed into a collection tank divided into a plurality of treatment areas.

The prepared pre-treated water is mixed with paint discharged from a paint booth or paint treated as waste to form a paint sludge, and the formed paint sludge is introduced into a collection tank divided into a plurality of treatment areas.

The paint sludge flows into the water collection tank and passes through a plurality of divided treatment regions, thereby sequentially reacting with a water-soluble chitosan derivative and coagulant, which are viscous removers.

The water collecting tank includes a plurality of partition walls partitioning the processing region,

The partition wall is spaced apart from one side of the inside of the water collection tank, and the first partition wall to allow the paint sludge to flow in one side direction,

And a second partition wall positioned to be spaced apart from the other side of the water tank to allow the paint sludge to flow in the other side direction,

The first partition wall and the second partition wall may be arranged to be spaced apart sequentially to partition the first to third processing regions and to allow the paint sludge to flow in a zigzag manner.

The partition wall partitions the processing area inside the water collection tank, the first partition wall partitions the first processing area and the second processing area, and the second partition wall partitions the second processing area and the third processing area.

The first partition wall is positioned to be spaced apart from one side of the inside of the water collection tank, so that the paint sludge flows between the first partition wall and one side of the water collection tank.

The second partition wall is positioned to be spaced apart from the other side of the inside of the catchment station, so that the paint sludge flows between the second partition wall and the other side of the catchment tank.

Here, the first partition wall and the second partition wall are positioned to be spaced apart from each other, so that the paint sludge flows zigzag when sequentially passing through the first and second partition walls.

The paint sludge flows in a zigzag direction in the lateral direction, that is, in the left and right directions, inside the water collection tank, so that the residence time in the treatment region can be maintained for a long time, and through this, the reaction time with the water-soluble chitosan derivative and anionic flocculant, which are viscous removers, I can secure enough.

The water collection tank may further include a third partition wall positioned to be spaced apart from one side inside the water collection tank so that the paint sludge flows between the partition wall and one side of the water collection tank.

The third partition wall may partition the third treatment region and the fourth treatment region, and the fourth treatment region may include an apparatus for removing paint sludge aggregates.

The first to fourth treatment regions may include separate viscous removers, flocculants, and flotation agents.

In the following step, in the first treatment region of the water collection tank, 0.01 to 10 parts by volume of a water-soluble chitosan derivative is added to 100 parts by volume of the paint sludge to obtain a viscous paint sludge.

The first processing region may mean one region partitioned by the first partition wall of the water collection tank.

The viscous paint sludge can be obtained by adding 0.01 to 10 parts by volume of a water-soluble chitosan derivative, preferably 0.05 to 1 parts by volume of a water-soluble chitosan derivative, with respect to 100 parts by volume of the paint sludge, More preferably, it can be obtained by adding 0.1 to 0.5 parts by volume of a water-soluble chitosan derivative.

When the water-soluble chitosan derivative is added below the above-described range, the viscosity of the paint sludge may not be sufficiently removed, and when added above the above-described range, the water-soluble chitosan derivative is unnecessarily consumed, thereby increasing the treatment cost. .

The next step is to form a primary paint sludge aggregate by adding 0.01 to 10 parts by volume of anionic flocculant to 100 parts by volume of the paint sludge from which the viscosity has been removed, in the second treatment region of the water collection tank.

The second processing area is an area other than the first processing area partitioned by the first partition wall of the water collection tank, and may mean an area between the first partition wall and the second partition wall.

The step of forming the primary paint sludge aggregate is a step of firstly forming the paint sludge aggregate by adding an anionic flocculant to the viscous paint sludge.

The primary paint sludge aggregate may be formed by adding 0.01 to 10 parts by volume of anionic flocculant, and preferably 0.05 to 1 parts by volume of anionic flocculant, with respect to 100 parts by volume of the paint sludge from which the viscosity has been removed. It may be, and more preferably, it may be formed by adding 0.1 to 0.5 parts by volume of anionic flocculant.

When the anionic flocculant is added below the above-mentioned range, the primary paint sludge aggregates may not be sufficiently formed, resulting in deterioration in aggregation efficiency, and when added above the above-described range, the size of the primary paint sludge aggregate is excessive. It can become large and deteriorate the compactability.

The subsequent step is a step of forming a secondary paint sludge aggregate by adding 0.01 to 10 parts by volume of an anionic flocculant to 100 parts by volume of the paint sludge containing the primary paint sludge aggregate in the third treatment region of the water collection tank. .

The third processing region is an area other than the second processing region partitioned by the second partition wall, and may include an area between the second partition wall and the third partition wall when the third partition wall is included.

The secondary paint sludge aggregate may be formed by adding 0.01 to 10 parts by volume of anionic flocculant, preferably 0.05 to 1 volume part of anionic flocculant, with respect to 100 parts by volume of paint sludge containing the primary paint sludge aggregate. It can be formed by adding, more preferably, it can be formed by adding 0.1 to 0.5 parts by volume of anionic flocculant.

When the anionic flocculant is added below the above-described range, the compactability of the secondary paint sludge aggregates may be reduced to increase the water content of the aggregate, and when added above the above-described range, there may be a problem that residual flocculant is present. You can.

In the method for reducing water content in the paint sludge according to the present invention, since the viscous remover and anionic flocculant are introduced step by step in the divided treatment area, the compactability of the agglomerate can be improved to reduce the water content in the sludge, increase the flocculation efficiency and increase the residual flocculant. There is an advantage that can be minimized.

In addition, since the viscous remover and anionic flocculant are introduced into the water collecting tank for each compartment, clogging of the drainage line can be prevented.

The anionic flocculant may be characterized in that it is a copolymer comprising any one or more monomers selected from the group consisting of acrylic acid, methacrylic acid, itaconic acid, maleic acid, fumaric acid and salts thereof.

In one example, the anionic flocculant is a copolymer of acrylic acid (methacrylic acid) and acryl amide (methacryl amide), acrylic acid (methacrylic acid), acrylic amide (methacryl amide) and 2-acryl amide-methyl propane sulfonic acid (vinyl Sulfonic acid).

The anionic coagulant may be characterized in that it is an emulsion type, thereby reducing the dissolution time and reducing the water content.

The anionic flocculant may have a weight average molecular weight range of 1,000 to 1,000,000, and preferably 10,000 to 100,000.

The total amount of the water-soluble chitosan derivative, which is the viscous remover, may be 0.01 to 10 parts by volume, preferably 0.05 to 1 parts by volume, and more preferably 0.1 to 0.5 parts by volume with respect to 100 parts by volume of the paint sludge flowing into the water collection tank. It may be a volume part.

The total amount of the anionic flocculant added may be 0.01 to 10 parts by volume, preferably 0.05 to 1 parts by volume, and more preferably 0.1 to 0.5 parts by volume with respect to 100 parts by volume of the paint sludge flowing into the water collection tank. .

The next step is to separate the secondary paint sludge agglomerate and the residual solution.

The secondary paint sludge aggregate is finally separated and removed.

At this time, the secondary paint sludge agglomerates can be removed using a sludge removal device.

The sludge removal device may be a rubber plate rotating rail, but is not limited thereto.

The subsequent step is a step of mixing the residual solution with the circulating water.

The residual solution means a solution remaining after removing the paint sludge aggregates, which can be mixed with circulating water again and used for collecting the paint.

Since the non-agglomerated paint component may remain in the remaining solution, the mixture is mixed with circulating water and then treated with a water-soluble chitosan derivative to remove viscosity, thereby producing pre-treated water.

In the present invention, the water-soluble chitosan derivative may be characterized in that it is a quaternary chitosan amine salt.

The quaternary chitosan amine salt refers to a quaternization (poly cation) by adding an acid to the amine group present in the chitosan, chitosan hydrochloric acid (HCl), chloromethane (CH ₃ Cl), benzyl chloride (C ₆ H ₅ CH ₂ Cl), dimethyl sulfate ((CH ₃ O) ₂ SO ₂ ), and the like.

The chitosan may be obtained by deacetylating chitin extracted from crustaceans such as crab and shrimp.

For example, 40 g of chitin extracted from shrimp and crab and 600 g of 40% NaOH were added to a 1 liter reactor, stirred, and maintained at a temperature of 80 ° C to 90 ° C for 4 hours using a heating device, and then filtered to neutralize. Chitosan can be obtained by washing and drying until possible.

The water-soluble chitosan derivative using chitosan obtained by deacetylating the chitin extracted from the crustaceans can replace a viscous remover harmful to the human body, such as a melamine-formaldehyde polymer, and has eco-friendly advantages.

Hereinafter, examples and experimental examples will be described in detail to specifically describe the present invention. However, the embodiments according to the present invention may be modified in various other forms, and the scope of the present invention should not be interpreted as being limited to the embodiments described below. The embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art.

<Production Example 1> Preparation of water-soluble chitosan derivative

 In a 1 liter reactor, 40 g of chitin extracted from shrimp and crab and 600 g of 40% NaOH were added and stirred, and then maintained at 80 ° C to 90 ° C for 4 hours using a heating device.

After that, it was filtered and washed to neutrality, and then washed and dried to obtain 65% to 75% deacetylated chitosan.

The quaternized water-soluble chitosan derivative was prepared by reacting the chitosan with dimethyl sulfate.

<Example 1> Multi-stage treatment of paint sludge

First, pre-treated water was prepared by adding 2.5 cc of the water-soluble chitosan derivative prepared in Preparation Example 1 to 1 L of circulating water.

After introducing the paint sludge with 5 cc of paint, based on 1 L of pre-treated water, into the collecting tank where the treatment area was partitioned (see FIG. 2), 2.5 cc of the water-soluble chitosan derivative prepared in Preparation Example 1 was added to the first area.

The paint sludge from which the viscosity was removed in the first region was flowed to the second region, and in the second region, 2.5 cc of sodium 2-propenate 2-propeneamide polymer (manufactured by SNF KOREA) having an anionic flocculant of 50,000 was added. The primary paint sludge agglomerates were formed through the addition of coagulants, and the paint sludge containing them flowed into the third zone.

Subsequently, 2.5 cc of 2-propenate sodium 2-propenamide polymer (manufactured by SNF KOREA) having a molecular weight of 50,000, which is an anionic flocculant as an anionic flocculant, was added to the paint sludge introduced into the third region to form a secondary paint sludge aggregate. , The formed secondary paint sludge aggregate was collected using a rubber plate rotating rail. After the secondary paint sludge agglomerates were separated, the remaining solution was transferred back to the circulating water storage tank.

<Comparative Example 1> Single treatment of paint sludge

In order to compare the effects of the treatment method according to the present invention, 5 cc of water-soluble chitosan derivative prepared in Preparation Example 1 and 5-propene acid having an anionic flocculant as an anionic flocculant in paint sludge with 5 cc of paint collected in 1 L of circulating water 5 cc of sodium 2-propenamide polymer (manufactured by SNF KOREA) was added to form a paint sludge aggregate.

Thereafter, the formed paint sludge aggregates were collected using a rubber plate rotating rail.

<Experimental Example 1> Measurement of moisture content in paint sludge

(1) Experiment method

The dry residual amount of the paint sludge aggregate collected in Example 1 and Comparative Example 1 was checked, and the final moisture content of the sludge aggregate was measured.

The drying residual amount measurement method was conducted by drying at 105 ° C. for 2 hours, and then the residual amount was measured, and the measurement was performed over a total of 5 times.

(2) Experiment result

Table 1 shows the results of the experiment. As shown, it could be confirmed that in Example 1, which was subjected to multi-step treatment than Comparative Example 1, which was subjected to a single treatment, a water content reduction effect of 10% or more was observed.

Comparative Example 1
Dry balance (%) Example 1
Dry balance (%) One 75.12 85.09 2 76.03 87.25 3 73.25 88.35 4 74.23 89.96 5 78.12 90.12 Average 75.35 88.15

Claims (5)

Preparing a pre-treated water by adding a water-soluble chitosan derivative to the circulating water;
Flowing the paint sludge in which the pre-treatment water and paint are mixed into a collection tank divided into a plurality of treatment areas;
In the first treatment region of the water collection tank, adding 0.01 to 10 parts by volume of a water-soluble chitosan derivative to 100 parts by volume of the paint sludge to obtain a viscous paint sludge;
Forming a primary paint sludge aggregate by adding 0.01 to 10 volume parts of an anionic flocculant to 100 parts by volume of the paint sludge from which the viscosity has been removed in the second treatment region of the water collection tank;
Forming a secondary paint sludge aggregate by adding 0.01 to 10 parts by volume of an anionic flocculant to 100 parts by volume of the paint sludge containing the primary paint sludge aggregate in the third treatment region of the water collection tank;
Separating the secondary paint sludge aggregate and the residual solution; And
And mixing the remaining solution in the circulating water,
The water collecting tank includes a plurality of partition walls partitioning the processing region,
The partition wall is spaced apart from one side of the inside of the water collection tank, and the first partition wall to allow the paint sludge to flow in one side direction,
And a second partition wall positioned to be spaced apart from the other side of the water tank to allow the paint sludge to flow in the other side direction,
The first partition wall and the second partition wall are sequentially spaced apart to partition the first to third processing regions and to allow the paint sludge to flow in a zigzag manner,
The anionic flocculant is a copolymer of acrylic acid, methacrylic acid, itaconic acid, maleic acid, fumaric acid and any one or more monomers selected from the group consisting of acrylic amide and a weight average molecular weight of 1,000 to 1,000,000. Method for reducing water content in paint sludge.
According to claim 1,
The water-soluble chitosan derivative is a quaternary chitosan amine salt, characterized in that the water content reduction in paint sludge.
According to claim 1,
The pre-treatment water is a method for reducing water content in paint sludge, characterized in that 0.01 to 10 parts by volume of water-soluble chitosan derivative is added to 100 parts by volume of circulating water.
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