DE10054000A1 - Process for treating circulating water from a paint shop and means therefor - Google Patents

Abstract

The invention relates to a method for treating recirculating water from a paint installation. According to said method, the paint that is washed out of the evacuated air of said paint installation is separated from the recirculating water at least on a case by case basis and polyaspartic acid is added to said recirculating water. The method is characterised in that amphoteric surfactants are also added to the recirculating water. The invention also relates to agents for use in said method, containing a combination of polyaspartic acid and amphoteric surfactants.

Description

The invention relates to a method for treating circulating water a painting plant, from which the washed out of the exhaust air of the painting plant Lacquer is separated at least occasionally.

To the excess paint used in paint shops, which with the Exhaust air is discharged from the painting booth and washed out of the exhaust air, To be able to recover, it is known (EP 0 675 080 A2), that with the paint to subject loaded washing water to a multi-stage membrane filtration. As a result of this membrane filtration, the separated lacquer corresponds in terms of its Composition and its concentration largely that known in this Painting system used water-based paint, while the purified water Painting system is fed back in a circuit, so that essentially a water circulation through the membrane filtration results. A disadvantage of this known method for separating the washed excess paint the circulating water, however, is that the paint particles tend to stick and then Harden. This leads to paint parts conveyed with the circulating water deposits in the pipes and pumps, which over time becomes a Blockage of the pipes and pumps can result. Similarly comes there are also paint deposits in the area of the exhaust system of the painting system, so that because of the paint deposits not only a comparatively high maintenance wall is required, but also malfunctions must be expected. In addition, it can lead to increased paint consumption and possibly quality come down.  

Coagulants can be used to prevent paint particles from sticking together be used. These coagulants, which consist of a wax, of a Polyelectrolytes or an alumina product exist, however, with the paint filtered out, which is a continuous supply of the coagulant used in a significant concentration. Despite the use of coagulation However, the deposition of paint particles and coagulum residues cannot average be prevented.

WO 99/38808 proposes to solve these problems, the circulating water Mix in polyaspartic acid.

The use of polyaspartic acid, which is prepared in a known manner (DE 43 05 368 A1, DE 43 06 412 A1, DE 43 10 503 A1, DE 43 10 503 A1, DE 43 23 191 A1, DE 44 27 233 A1, DE 44 28 639 A1) and otherwise above all as an additive for washing and cleaning medium, largely prevents the paint particles from sticking together, so that it too no deposits or sticking in the pipes, pumps or in other parts of the system comes in with the paint-laden circulating water Come into contact. Because the polyaspartic acid also remains dissolved in the water and therefore is circulated with the circulating water, only the Loss of polyaspartic acid to be replaced by water evaporation or due to the slight amount of water separated with the paint becomes.

As an alternative to this, DE-A-199 32 766 discloses a process for treating the circulating water in paint booths, the paint particles being dispersed by adding dispersants which are selected from

• a) Homopolymers and copolymers based on maleic acid, acrylic acid and / or Methacrylic acid with molecular weights in the range between 2,500 and 500,000,
• b) nonionic surfactants,
• c) anionic surfactants, in which case none of the circulating water Polyaspartic acid is additionally added,
• d) inorganic or non-polymeric organic complexing agents

as well as mixtures thereof and their total concentration between 0.01 and 2.0 wt .-%, preferably is between 0.02 and 0.5 wt .-% based on circulating water.

Although by the latter two methods mentioned above Problems with the treatment of circulating water from a paint shop largely avoided, these procedures are not yet satisfactory among all circumstances that may arise in practice. For example, too using these processes, the detackification and dispersion of the paint particles in the Circulating water is insufficient if a) paints with a high content of fillers and Binding agents, in particular primers, are to be removed, b) the circulating water has high water hardness and / or c) it leads to a high entry Solvents, cleaners, lubricants or defoamers. Therefore poses the task, even under the aforementioned aggravating circumstances satisfactory detackification and dispersion of the paint particles in the To reach circulating water. In particular, it should be possible to use the circulating water rid of the paint particles by membrane filtration without the Paint particles clog the membrane.

The present invention relates to a method for processing Circulating water from a painting plant, from which the exhaust air from the Painting system washed out paint is separated at least occasionally, whereby polyaspartic acid is added to the circulating water, characterized in that that additional amphoteric surfactants are added to the circulating water.

The polyaspartic acid is preferably used in the form of an aqueous solution an alkali metal or ammonium salt of polyaspartic acid Circulating water too. For example, a 40% by weight solution of the Sodium salt of polyaspartic acid can be used, which is preferably in an amount of 0.5 to 5% by volume, in particular 2 to 5% by volume Circulating water admits.  

The amphoteric surfactants are preferably added to the circulating water in one Amount of 0.05 to 1 wt .-%, in particular from 0.1 to 0.5 wt .-%, based to all the circulating water.

Particularly advantageous process conditions result when the Concentration of polyaspartic acid and amphoteric surfactants in Circulating water is kept approximately constant by the cycle losses be supplemented accordingly. As has been shown in practice, a portion of the Polyaspartic acid of 2-5 vol.% Of the circulating water the usual requirements advantageously correspond. With such a concentration of polyaspartic acid can stick paint particles up to a paint load of the circulating water of 10 vol.% and above can be effectively prevented. in the If necessary, the concentration on the respective paint load of the Circulating water to be adjusted.

The amphoteric surfactants can be selected from different groups become. For example, they can be selected from tertiary amine oxides Amines, which are at least one saturated or unsaturated, branched or linear Have alkyl group with 10 to 22 carbon atoms. They can also be selected be from quaternary ammonium compounds that are at least one saturated or unsaturated, branched or linear alkyl group with 10 to 22 carbon atoms and have at least one alkyl group which has a negatively charged Carries substituents. The alkyl group preferably has 10 to 22 carbon atoms 12 to 18 carbon atoms. Instead of a defined alkyl group in both Cases a mixture of different alkyl groups with different C- Chain length and a different number of double bonds, as found in the alkyl groups of naturally occurring fats and oils become. For example, it can be a mixture of alkyl groups as it is in coconut fat. The remaining alkyl groups of the amine oxides or quaternary ammonium compounds are preferably methyl and / or Represents ethyl groups.  

If the amphoteric surfactants chosen are those which have at least one alkyl group have a negatively charged substituent, this can be negative For example, a substituent can be selected from a carboxylate group and one Sulfonate group. The alkyl group has a negatively charged one Bears substituents, preferably 1 to 5 carbon atoms and in particular 2 to 4 carbon atoms Atoms, for example 3 carbon atoms. Because of this relative proximity of the negative charged center at the positively charged center of the amphoteric surfactant affects the foaming behavior favorably.

Suitable amphoteric surfactants are, for example:
N-hydroxyethyl-N-cocoalkylamidoethyl-carboxy-methylglycinate (Dehyton ^R G)
Cocoamidoprvpylhydroxisultaine (Dehyton ^R F512)
Dimethyl-N-Cocoamidopropylamine-N-Oxide (Standamox ^R PW)
Dimethyl-N- (lauryl-myristyl) amine-N-oxide
N-lauryliminodipropionate Na
N-caprylamidoethyl-N-ethyl ether propionate Na
3 (3-cocoamidopropyl) dimethyl-2-hydroxypropane sulfo ammonium betaine
(Rewoteric ^R AM CAS)

In particular when separating solvent-based paints, but possibly also with water-based paints ("water-based paints"), it is advisable to add one or more further dispersants to the circulating water in addition to the polyaspartic acid and the amphoteric surfactants. These can be selected from

• a) polyamines, polyimines or polymeric carboxylic acids, for example selected from homo- and copolymers based on maleic acid, acrylic acid and / or methacrylic acid, with molecular weights in the range between 2500 and 500,000, the polycarboxylic acids also other polyamino acids (except Can represent polyaspartic acid)
• b) nonionic surfactants,
• c) anionic surfactants,
• d) inorganic or non-polymeric organic complexing agents.

The total concentration of these further dispersants is preferably between 0.01 and 2.0% by weight based on the circulating water.

Anionic surfactants can be selected, for example, from alkyl sulfates, Alkyl sulfonates, alkyl benzene sulfates and alkyl ether sulfates. Are alkyl sulfonates particularly preferred.

The anionic surfactants are preferably added to the circulating water in one Amount between about 0.02 and 0.75 wt .-% based on the circulating water. In water-based paints, additions of anionic surfactants are in the lower Concentration range, for example between about 0.02 and about 0.35% by weight sufficient, while for solvent-based paints quantities from about 0.05 to about 0.75% by weight are preferred.

Non-ionic surfactants which are preferably selected from alkoxylates of fatty acids, fatty alcohols or fatty amines with 7 to 36, preferably 10 to 22, carbon atoms in the fatty alkyl radical and with 5 to 100, preferably 10 to 80 alkylene oxide units can also be used as further dispersants in the process according to the invention , Alkylene oxide groups in particular include ethylene oxide groups or combinations of ethylene oxide groups and propylene oxide groups. For example, an alkoxylate of a C _12/14 fatty alcohol mixture with an average of 5 ethylene oxide and 4 propylene oxide units in the molecule or ethoxylates of coconut amine, for example with an average of 3, 5 or 11 ethylene oxide units in the molecule, can be used.

Furthermore, inorganic or non-polymers can be used as further dispersants organic complexing agents are used, preferably organic Phosphonic acids, especially 1-hydroxyethane-1,1-diphosphonic acid, Aminotrimethylene phosphonic acid and / or phosphonobutane tricarboxylic acid.

Mixtures of representatives of the individual groups listed can also be used be used by other dispersants. Are particularly suitable  Mixtures of polyacrylates and phosphonic acids as well as mixtures of Nonionic surfactants and phosphonic acids.

The pH of the circulating water is set in the process according to the invention preferably one in the range between about 7 and 14, in particular between about 9 and about 10. At these pH values, protolysis qualified acidic feedstocks such as polyaspartic acid are mostly in salt form, regardless of the form in which they are in brings the circulating water. Depending on the type of feed, it can be necessary to set the preferred pH range additionally To use pH correctors, for example alkali metal hydroxides.

Furthermore, depending on the type of paint used, it can be recommended that Add anti-foaming agents to the circulating water. The use of Defoaming is generally known in the technical field concerned because especially when using water-based paints foam problems in the Circulating water can occur.

The circulating water can have a hardness in the range from 0 to 200 ° dH, in particular have in the range of 0 to 50 ° dH.

The method according to the invention is particularly suitable for painting systems, in which the circulating water has a high turbulence. By pouring the Circulating water the dispersing effect is increased.

When using the feedstocks according to the invention, this can Circulating water can be circulated for a certain time without the entered paint particles must be removed. When the However, a concentration of paint particles in the system arises over time Circulating water that should not be exceeded to avoid disruptions excluded. The range in which this limit concentration lies depends on the specific embodiment of the respective system. Therefore you can see in the Process according to the invention preferably before, continuously or  discontinuously add a proportion of the paint particles from the circulating water remove. It is preferable to proceed in such a way that one part of the Paint particles by membrane filtration, preferably ultrafiltration, from Circulating water separates. The permeate from the membrane filtration is in the Circulating water returned and the retentate disposed of. This can be done continuously or discontinuously part of the circulating water via a by-pass over the Membrane are driven.

As an alternative to membrane filtration, the paint particles can also mechanically separated from the wash water, for example by a continuously or discontinuously running centrifuge or a Separator.

In a further aspect, the invention relates to a means for performing of the method according to the invention can be used. This means contains both polyaspartic acid or its alkali metal or ammonium salt, for example their sodium salt, as well as one or more amphoteric surfactants. The weight ratio i) polyaspartic acid or its alkali metal or Ammonium salt and ii) one or more amphoteric surfactants is preferably in a range i): ii) between 4: 1 and 40: 1. As amphoteric surfactants preferably used those described above in the description of were characterized in more detail. Furthermore, that Agents contain: solubilizers, wetting agents, anti-corrosion agents or biocides as well as defoamers, especially for use with water-based paints.

WO 99/38808 shows a schematic block diagram of a system for Treatment of circulating water from a paint shop, which is also for the present invention can be used. The ones in this document specified detailed description of a painting system and the preparation of the Circulating water, to which express reference is hereby made, are also suitable for the practice of the present invention.  

The method according to the invention and the means which can be used for this are for everyone Paint systems suitable: water-based paints, solvent-based paints, primers, Clear lacquers and metallic lacquers. They are suitable for systems with high loads on disruptive components such as cleaners, lubricants, Defoamers etc. Hard water can be used as circulating water. The Lacquers used can float, sediment or depending on their properties be dispersed, which in connection with, for example, a paint separation by settling, centrifuging or membrane filtration essential Meaning is. The paint content can be continuous or discontinuous be separated from the circulating water.

embodiments a) Examples according to the invention

Water at 25 ° dH was used to test the invention. Based on the water, this was added with 2 vol .-% of a 40% aqueous solution of the sodium salt of polyaspartic acid and 0.2 wt .-% dimethyl-N-cocoamidopropylamine-N-oxide (Standamox ^R PW). The mixture was then stirred at 300 revolutions per minute for 10 minutes. The "Primer light gray" varnish from BASF was then added in such an amount that the solids content of the varnish was 0.5% by weight of the water. Again, stirring was carried out at 300 rpm for 10 minutes. The dispersing effect was assessed optically. After weaning, it was checked whether the sediment was well detackified and redispersible. In the exemplary embodiment mentioned, this was the case in each case. A corresponding positive result was achieved with a metallic topcoat with a high solid content.

b) Comparative example

The procedure according to the exemplary embodiment was followed, except that 0.2% by weight of ethoxylated coconut amine (12 EO groups) was used instead of the dimethyl-N-cocoamidopropylamine-N-oxide (Standamox ^R PW). In contrast to the example according to the invention, the dispersion took place more slowly. The sediment after settling was partly not detackified and could not be completely redispersed.

Claims (13)

1. A process for the treatment of circulating water from a painting system, from which the paint washed out of the exhaust air from the painting system is separated at least occasionally, the circulating water being mixed with polyaspartic acid, characterized in that amphoteric surfactants are additionally added to the circulating water. 2. The method according to claim 1, characterized in that the poly aspartic acid in the circulation water in an amount of 0.5 to 5% by volume, preferably from 2 to 5 vol.%, Based on a 40 wt .-% aqueous Solution of the Na salt is mixed. 3. The method according to one or both of claims 1 and 2, characterized characterized in that the amphoteric surfactants in a circulating water Amount of 0.05 to 1 wt .-% based on the total circulation water be added. 4. The method according to one or more of claims 1 to 3, characterized characterized in that the amphoteric surfactants are selected from Amine oxides of tertiary amines which contain at least one saturated or unsaturated, have branched or linear alkyl group having 10 to 22 carbon atoms. 5. The method according to one or more of claims 1 to 3, characterized characterized in that the amphoteric surfactants are selected from quaternary ammonium compounds containing at least one saturated or unsaturated, branched or linear alkyl group with 10 to 22 carbon atoms and have at least one alkyl group which has a negatively charged Carries substituents.   6. The method according to claim 5, characterized in that the negative The substituent is selected from a carboxylate group and one Sulfonate group. 7. The method according to any one of claims 5 and 6, characterized in that the alkyl group bearing a negatively charged substituent is 1 to 5 C- Contains atoms, preferably 2 to 4 carbon atoms. 8. The method according to one or more of claims 1 to 8, characterized in that in addition to the circulating water further dispersants are selected from

• a) polyamines, polyimines or polymeric carboxylic acids with molecular weights in the range between 2500 and 500,000,
• b) nonionic surfactants,
• c) anionic surfactants,
• d) inorganic or non-polymeric organic complexing agents and mixtures thereof.

9. The method according to claim 8, characterized in that the Total concentration of the other dispersants between 0.01 and 2.0% by weight based on circulating water. 10. The method according to one or more of claims 1 to 9, characterized characterized in that the paint particles mechanically or by a membrane filtration can be separated from the circulating water. 11. Means for use in a method according to one or more of claims 1 to 10, containing

• a) polyaspartic acid or its alkali metal or ammonium salt and
• b) one or more amphoteric surfactants in a weight ratio i): ii) between 4: 1 and 40: 1

12. Composition according to claim 11, characterized in that the amphoteric Surfactants are selected from amine oxides of tertiary amines, which are at least a saturated or unsaturated, branched or linear alkyl group with 10 have up to 22 C atoms. 13. Composition according to claim 11, characterized in that the amphoteric Surfactants are selected from quaternary ammonium compounds that at least one saturated or unsaturated, branched or linear Alkyl group with 10 to 22 carbon atoms and at least one alkyl group have a negatively charged substituent.