JP6688918B1 - Water treatment equipment, cleaning method, and paint that facilitate removal of stuck sludge - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water treatment facility which is excellent in sludge removability, can reduce a work load at the time of removing work and can reduce facility damage, and can be stably operated for a long time, a cleaning method of the water treatment facility, and a paint. .. SOLUTION: A sewage treatment plant, and / or an industrial water supply, and / or a human waste treatment plant, and / or a waste final disposal site, and / or a water treatment and / or sludge treatment facility installed in a general factory, and A water treatment facility including ancillary facilities such as these pipes, which is provided with a coating having the following characteristics (1) to (4) on a surface which is in contact with a liquid to be treated and on which sludge may adhere. Water treatment facility characterized by. (1) 1 to 90% by weight of silicone oil is contained in the coating. (2) The paraffin contact angle of the coating surface is 30 ° or more. (3) The dynamic friction coefficient of the three-point steel ball on the coating surface is 0.15 or less. (4) The coating thickness is 5 to 2000 μm. [Selection diagram] None

Description

  TECHNICAL FIELD The present invention relates to a water treatment facility and a method for cleaning the water treatment facility, and more particularly to a water treatment facility, a cleaning method, and a paint capable of easily removing sludge stuck in a water treatment or sludge treatment facility.

  Conventionally, water treatment equipment for treating organic wastewater, leachate, etc. is made of iron, stainless steel, concrete, etc. In many cases, it is operated without painting.

  For this reason, in the case of equipment that is equipped with a sedimentation tank, etc. in the process of treating raw water such as organic wastewater, sludge, sewage, and leachate, sludge adheres to the bottom and wall surfaces of the tank and incidental equipment, and the volume decreases. May occur, leading to a decrease in processing efficiency. The adhered sludge is derived from sewage sludge or night soil sludge (digested sludge, excess sludge), etc., not activated sludge, and a coagulant such as limestone, ferric chloride or polymer coagulant is added to the sludge due to the treatment process. In addition, depending on the treatment facility and process, there are cases where peculiar components are included. Therefore, when sludge having a characteristic of hard and agglomerating adheres to a tank or equipment, it is fixed. It was not easy to remove the stuck sludge, and it was difficult to remove it by scraping it off with a scaler or skin scraps.

JP 2000-303004 A

  As a method to solve such problems, various removal tools have been improved, but the improvement in work time and labor is not expected to be significant, and it will be improved to some extent. It was not enough from the viewpoint of reducing the cleaning work.

  In view of the above problems, the present invention is excellent in sludge removability, can reduce the work load during removal work and reduce equipment damage, and can be stably operated for a long period of time. Methods and paints are provided.

  As a result of intensive studies to solve the above-mentioned problems, the present inventors have provided a predetermined coating on a surface which may come into contact with a liquid to be treated and may have sludge removability dramatically. It was found that the improvement, repeatability, work load and damage to equipment during removal work can be reduced, and that equipment downtime can be shortened, which enables stable equipment operation. The invention was completed.

In one aspect, a water treatment facility according to an embodiment of the present invention completed based on the above knowledge is a sewage treatment plant, and / or an industrial water supply, and / or a human waste treatment plant, and / or a final waste disposal site, And / or water treatment and / or sludge treatment equipment installed in a general factory, and water treatment equipment including auxiliary equipment such as pipes thereof, which is in contact with the liquid to be treated and may have sludge attached to its surface And a coating having the following characteristics (1) to (4).
(1) The coating contains 1 to 90% by weight of silicone oil.
(2) The paraffin contact angle of the coating surface is 30 ° or more.
(3) The dynamic friction coefficient of the three-point steel ball on the coating surface is 0.15 or less.
(4) The thickness of the coating is 5 to 2000 μm.

  In one embodiment of the water treatment facility according to the embodiment of the present invention, the coating has a function of releasing silicone oil into the liquid to be treated.

  In another embodiment of the water treatment facility according to the embodiments of the present invention, the coating contains a hydrolyzable silicone resin.

  In another embodiment of the water treatment facility according to the embodiment of the present invention, the coating is composed of two or more layers, and the first coating contains an epoxy resin.

In another aspect, a cleaning method for a water treatment facility according to an embodiment of the present invention is a sewage treatment plant, and / or an industrial water supply, and / or a human waste treatment plant, and / or a final waste disposal site, and In the water treatment and / or sludge treatment facilities installed in general factories, and in the water treatment facilities including auxiliary equipment such as pipes thereof, for the surface on which sludge can adhere to the surface in contact with the liquid to be treated, (1) to (4) of the water treatment equipment provided with a coating having a characteristic of the water treatment equipment including removing the surface deposits including sludge adhered on the surface of the coating using a cleaning tool. It is a cleaning method.
(1) The coating contains 1 to 90% by weight of silicone oil.
(2) The paraffin contact angle of the coating surface is 30 ° or more.
(3) The dynamic friction coefficient of the three-point steel ball on the coating surface is 0.15 or less.
(4) The thickness of the coating is 5 to 2000 μm.

  In one embodiment, a method for cleaning a water treatment facility according to an embodiment of the present invention removes surface deposits, and then coats a surface in contact with a liquid to be treated with a coating having the above characteristics (1) to (4). Including further placement.

In one aspect, the coating material according to the embodiment of the present invention is installed in a sewage treatment plant, and / or an industrial water supply, and / or a human waste treatment plant, and / or a waste final disposal site, and / or a general factory. A water treatment and / or sludge treatment facility for water, and a paint used in a water treatment facility including ancillary facilities such as pipes thereof. It is a paint for forming a coating having the characteristics of 1) to (4).
(1) The coating contains 1 to 90% by weight of silicone oil.
(2) The paraffin contact angle of the coating surface is 30 ° or more.
(3) The dynamic friction coefficient of the three-point steel ball on the coating surface is 0.15 or less.
(4) The thickness of the coating is 5 to 2000 μm.

  ADVANTAGE OF THE INVENTION According to this invention, the sludge removability is excellent, the work load at the time of the removal work can be reduced, and the damage to the equipment can be reduced. Can be provided.

  Hereinafter, embodiments of the present invention will be described, but the embodiments shown below exemplify equipment and methods for embodying the technical idea of the present invention, and the technical idea of the present invention is The structure, arrangement, etc. of the constituent elements are not specified below. In the embodiments of the present invention, “%” means% by weight unless otherwise specified.

  The water treatment facility according to the embodiment of the present invention is a water treatment facility, and / or industrial water supply, and / or human waste treatment plant, and / or waste final disposal site, and / or water installed in a general factory. Includes treatment and / or sludge treatment facilities and their associated equipment such as piping. In such a water treatment facility, a coating having the following characteristics (1) to (4) is arranged on the surface which is in contact with the liquid to be treated and on which the sludge may adhere.

  “A surface that is in contact with a liquid to be treated and on which sludge can adhere”, that is, a coated surface to which the coating according to the embodiment of the present invention is applied is iron, aluminum, stainless steel, titanium copper alloy, zinc plating, or the like. The metal material surface and the surface-treated surface thereof, the inorganic material surface such as concrete, mortar, and molded plate and the surface adjustment surface thereof, and the old coating surface on these material surfaces can be included.

  In this treatment method, (1) the coating contains 1 to 90% of silicone oil, (2) the coating surface has a paraffin contact angle of 30 ° or more, and (3) the coating surface has a dynamic friction coefficient of three-point steel balls. Is 0.15 or less, and (4) a coating (A) having a coating thickness of 5 to 2000 μm is formed.

  The paint for forming such coating (A) is not particularly limited as long as it satisfies the above conditions, and conventionally known undercoat paints and intermediate paints can be applied. For example, phthalic acid-based rust preventive paints, oil-based alkyd-based paints, phenol alkyd-based paints, epoxy ester-based, one-part or two-part epoxyamine-based, polyurethane-based, and chlorinated rubber-based rust-preventive paints and primers on metal surfaces. Can be mentioned.

  On the inorganic material surface, for example, vinyl chloride-based, acrylic-based, epoxy-based, chlorinated rubber-based, urethane-based, chlorinated resin-based sealer coatings, acrylic-, urethane-based, polymer-cement-based base conditioning agents, etc. Further, an intermediate coating paint such as an epoxy-based, acrylic-based or urethane-based coating can be used.

  In practice, considering the durability of the coated surface on both the metal surface and the inorganic material surface, and considering the durability of the coated surface as the liquid contact surface, it can It is desirable to use an epoxy resin paint containing an epoxy resin as an undercoat (first layer coating) on the coated surface. Furthermore, it is desirable to form a coating consisting of two or more layers, which is an optimum combination with an undercoat layer having an epoxy resin, in an actual use environment.

  The coating of the coating (A) can be performed by a general method such as brush coating, spray coating, roller coating, iron coating, and spatula coating. The coating amount of the coating (A) depends on the properties of the article to be coated and the surface to be coated. It can be appropriately selected depending on the area or the like.

  There is no problem in applying the coating (A) again to the surface of the coating (A). However, since the film thickness at which the effect is exhibited is 5 μm to 2000 μm, it is preferable that the total film thickness when the coating (A) is applied is not more than 2000 μm.

  The surface of the coating (A) can be coated by a general method such as brush coating, spray coating, roller coating, iron coating, and spatula coating when the coating (A) is coated again. There are no particular restrictions. The coating amount can be appropriately selected according to the properties to be coated and the properties and areas of the surfaces to be coated.

  The coating (A) that is placed on the surface to be coated and is in contact with the water to be treated in the water treatment facility preferably has a function of releasing silicone oil into the liquid to be treated. This prevents the sludge from sticking to the surface coated with the coating (A), and the sludge-containing surface deposits are applied using a scaler, a skid, a brush, a waste cloth, a sponge, a high-pressure water cleaner, etc. Since it can be easily removed by the cleaning tool, it is possible to reduce the work load and damage to the equipment during the removing work. The coating (A) more preferably contains a hydrolyzable silicone resin.

(1) Silicone oil The coating contains 1 to 90% of silicone oil. Silicone oil is more preferably contained in 5 to 50%, and further preferably 10 to 30%.

(2) Paraffin contact angle The paraffin contact angle of the coating surface needs to be 30 ° or more, more preferably 45 ° or more, and further preferably 60 ° or more. When the paraffin contact angle of the coating surface is smaller than 30 °, contaminants such as inorganic scale may easily adhere. On the other hand, if the paraffin contact angle of the coating surface is too large, the repairability (overcoating property) of the coating film may be problematic. The paraffin contact angle can be, for example, 80 ° or less, and further 70 ° or less. Here, the paraffin contact angle represents the result of measuring the static contact angle at room temperature using a simple contact angle meter.

(3) Dynamic friction coefficient If the dynamic friction coefficient of the three-point steel balls on the coating surface is too large, the ease of removal of the inorganic scale may decrease, so the dynamic friction coefficient is preferably 0.15 or less, and 0.10 or less. The following is more preferable, and even more preferably 0.05 or less. If the dynamic friction coefficient is too small, problems may occur in the repairability (overcoating property) of the coating film. Therefore, the dynamic friction coefficient of the three-point steel ball on the coating surface is preferably 0.02 or more.

(4) Thickness If the thickness of the coating is too thin, peeling occurs during scale removal work and the re-coating work of the coating becomes frequent, which is not efficient, but if it is too thick, the economy may be impaired. The film thickness of the coating can be between 5 μm and 2000 μm, in one embodiment between 75 and 1000 μm, and in yet another embodiment between 150 and 300 μm.

(Washing method)
A composition obtained by containing 1 to 90% by weight of silicone oil and further adding a hydrolyzable silicone resin or an epoxy resin as a base resin is a sewage treatment plant, and / or an industrial tap water, and / or a human waste treatment plant, And / or the final disposal site of waste, and / or the water treatment and / or sludge treatment facility installed at a general factory, and the sludge on the surface in contact with the liquid to be treated of the water treatment facility including auxiliary equipment such as pipes thereof. A coating (coating film) is formed by applying it to a surface that can be attached, curing it, and drying it, and removing surface deposits including sludge on this coating using a cleaning tool in the cleaning process of water treatment equipment. By doing so, the water treatment facility can be washed.

  As the cleaning tool, any device conventionally used for removing sludge, such as a scaler, leather scrap, brush, waste cloth, sponge, or high-pressure water cleaner can be used. When the coating peels off after cleaning, it is preferable to remove the deposits on the surface and then dispose the coating again on the surface to be contacted with the liquid to be treated. It is not necessary to re-form the coating after removing the surface deposits each time the surface deposits are removed, and it is also preferable to re-form the coating appropriately depending on the surface properties after the removing work. .

  Hereinafter, examples of the present invention will be shown together with comparative examples, but these examples are provided for better understanding of the present invention and its advantages, and are not intended to limit the present invention. In the examples and comparative examples, "parts" means parts by weight unless otherwise specified.

  Coatings 1 to 12 (Examples) and 13 to 17 (Comparative Examples) made of the compositions having the composition shown in Table 1 were prepared. Coatings 1-4, 7-16 consist of hydrolyzed silicone and samples 5-6 consist of epoxy resin paint. Regarding each composition, if the above-mentioned parameters (1) to (4) are satisfied, there is no particular limitation on the molecular weight, modified product, composition, etc., and it goes without saying that a filler such as a pigment may be used. . In addition, it goes without saying that a solvent may be appropriately used in the preparation or coating of the paint (not included in the parts by weight in Table 1). The coating 17 was unpainted on the stainless steel plate. The coatings 1 to 6, 7 to 12, and 13 to 16 each had an epoxy resin layer of 40 μm as an undercoat layer on the surface to be coated.

In Table 1, the "hydrolyzable silicone", manufactured by Shin-Etsu Chemical Co., Ltd., one-component curable silicone resin (RTV), was used product name K E 42. As "epoxy", liquid epoxy resin manufactured by Mitsubishi Chemical Co., Ltd., product name 1001X75 and T & K TOKA Co., modified polyamide adduct curing agent, product name Tomeide 423 should be used in an equivalent ratio of 0.6 immediately before coating. Was prepared. As the "silicone oil", Shin-Etsu Chemical Co., Ltd.'s polyether modified silicone oil, trade name KF353 was used. The "primer coat" used was an epoxy resin paint manufactured by Kansai Paint Co., Ltd. under the trade name Epomarin GX.

  Dry coating films according to Examples and Comparative Examples by spray coating on a plate of stainless steel material (SUS304 steel plate of 3.2 × 70 × 150 mm) so as to obtain the dry film thickness in Table 1. (Coating) was prepared. The characteristics of the dry coating film shown in Table 1 were measured after coating the coating materials obtained in Samples 1 to 17 and curing and drying in a constant temperature room at 23 ° C. for 7 days. Each property was measured according to the following.

(Paraffin contact angle)
The static contact angle of paraffin was measured using a contact angle meter "DMe-211" manufactured by Kyowa Interface Science Co., Ltd.

(Dynamic friction coefficient)
The three-point steel ball friction coefficient was measured using an automatic friction and wear analysis device “TSf-503” manufactured by Kyowa Interface Science Co., Ltd. The measurement conditions were a weight of 1 kg and a weight of 5 cm / sec, and the average value of horizontal force (kg) / 1 kg was taken as the friction coefficient from the stress when sliding horizontally on the coating film.

(Coating film thickness)
The film thickness of the coating was measured using an iron surface / non-ferrous metal surface film thickness meter “SAMAC-FN” manufactured by Sanko Electronic Laboratory Co., Ltd. In a system using an undercoat, the film thickness of the undercoat was previously measured by fixed point measurement, and the undercoat film thickness was subtracted from the total film thickness to obtain only the film thickness of the coating.

  The coating adhesion test, the sludge adhesion stain test, and the sludge removal test were evaluated according to the following procedures. The results are shown in Table 2.

(Coating adhesion)
The surface of the coatings 1 to 17 was strongly rubbed with a nylon brush 10 times as initial adhesion before the test, and the adhesion of each coating at that time was evaluated based on the following evaluation criteria.
(Evaluation level)
⊚: No peeling is observed ◯: Only scratches are left on the coating, and no peeling is observed.
Δ: Some peeling is seen.
X: Remarkable peeling.

(Sludge adhesion and dirtiness)
The test plates prepared with the coatings 1 to 17 according to the examples and the comparative examples were immersed in actual equipment (sludge storage tank of a waste leachate treatment facility) for 30 days, and then pulled up to evaluate the adhered dirt of sludge as follows. It was evaluated based on the standard.
(Evaluation level)
⊚: No dirt attached to sludge. Or, it is extremely thin and slightly visible.
◯: The amount of sludge adhered is thin, and no significant adhered stain is seen.
B: Sludge is adhered, and the adhered dirt has started to accumulate.
X: The sludge adhered remarkably, and the deposition and fixation could be confirmed.

(Removability of sludge)
The sludge removability was evaluated after the sludge adhesion and stain resistance was evaluated. The attached sludge was rubbed with a nylon brush, and the degree of removal was evaluated based on the following evaluation criteria.
(Evaluation level)
◎: It will come off by gently stroking it with a nylon brush.
◯: Fall off by rubbing with a nylon brush.
Δ: Drops when repeatedly rubbed with a nylon brush.
X: Nylon brush hardly drops off.

Claims (4)

(A) sewage treatment plant, (b) industrial water, (c) raw sewage treatment plants, (d) final waste disposal site, (e) water treatment facility is the facility to the general plant and / or sludge processing equipment, and (F) In the water treatment equipment including the auxiliary equipment such as the pipes (a) to (e) , which is in contact with the liquid to be treated and may have sludge attached to the surface, the following (1) to ( A water treatment facility comprising a coating having the characteristics of 4).
(1) The coating contains 1 to 90% by weight of silicone oil.
(2) The paraffin contact angle of the coating surface is 30 ° or more.
(3) The dynamic friction coefficient of the three-point steel ball on the coating surface is 0.15 or less.
(4) The thickness of the coating is 5 to 2000 μm. The water treatment facility according to claim 1 , wherein the coating is composed of two or more layers, and the first layer coating contains an epoxy resin. (A) sewage treatment plant, (b) industrial water, (c) raw sewage treatment plants, (d) final waste disposal site, (e) water treatment facility is the facility to the general plant and / or sludge processing equipment, and (F) In the water treatment equipment including the auxiliary equipment such as the pipes (a) to (o) , the following (1) to (4) are applied to the surface which is in contact with the liquid to be treated and on which sludge may adhere. A method for cleaning a water treatment facility, comprising removing, by using a cleaning tool, surface deposits containing sludge that adhere to the surface of the coating of the water treatment facility provided with a coating having the characteristics of 1.
(1) The coating contains 1 to 90% by weight of silicone oil.
(2) The paraffin contact angle of the coating surface is 30 ° or more.
(3) The dynamic friction coefficient of the three-point steel ball on the coating surface is 0.15 or less.
(4) The thickness of the coating is 5 to 2000 μm. The method for cleaning water treatment equipment according to claim 3 , further comprising arranging a coating having the characteristics (1) to (4) on the surface in contact with the liquid to be treated after removing the surface deposits. .