JPH07501008A - Antifoaming agent - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Antifoaming agent field of invention The present invention comprises a Cl6-24 fatty alcohol, a wax ester, and optionally a fatty alcohol. Concerning antifoaming agents containing ketones, and in the production of paints and lacquers, as well as in sewage Sewage originating from treatment plants or from industrial processes (e.g. metal processing or paper manufacturing) ) regarding their use as additives for cleaning products in the treatment of wastewater originating from Foaming when using surfactants is common in many industrial processes. This is an important issue. For example, surfactants, virgoos, alkali metal silicates, In addition to carbonates and/or hydroxides, active chlorine or active oxygen compounds are used. Powdered or liquid alkaline detergents that also contain and in industrial washing machines for beer bottles and milk bottles. Excessive foaming To prevent this, antifoaming agents are usually added to such detergents.

When producing paints and lacquers, e.g. water-based lacquers, the water-dilutable crystals used are The mixture also has a significant tendency to foam violently. In this case, the distribution Stirring in air while mixing the components, i.e. grinding the lacquer The device can only be operated with a partial filling of the effective amount, as bubbles can occur due to . Even in these applications, it is necessary to use foam suppressants and deaerators. Goldschmidt, Inform, ) May 9, 1989.

Another area of use for defoamers is sewage treatment in sewage treatment plants. activity In sludge treatment, for example, so that sewage particles are sufficiently contacted and mixed with microorganisms, Injecting air into wastewater [ChiuZ 25.87 (1991). Many In many cases, the resulting foam is a protein foam and is therefore particularly stable. without settling , the treated sludge is removed as solids undesirably stick in and on the foam lamellae. It is difficult to do so.

Attempts have been made to provide antifoam agents for the field of complex foam control. It has been.

For example, the use of ketones as foam suppressants in soap-containing detergents is a German specialty. It is known from Japanese Patent Publication Nos. 1467613 and 2242541. moreover , European Patent Application No. 0 324 339 discloses fatty ketones as active substances, or mineral oil or Guerbet alcohol as carrier liquids. A dispersion containing the molecule is described. However, the defoaming effect of this type of system is Insufficient for various applications.

It is therefore an object of the present invention to provide novel antifoam agents without the above-mentioned disadvantages. The invention is [In the formula, R1 is the following carbon (C) chain distribution: <C + g: O ~ 9% by weight Cu: 32-88% by weight C20: 2-43 weight% C22: 4-52% by weight >C22:0~15% by weight is a linear, saturated alkyl group optionally substituted with hydroxy] fatty alcohol, denoted by b) Formula (■): R2C0-0R3(II) [In the formula, R2C0 optionally contains 16 to 24 carbon atoms and 0 or 1 double bonds. is an anlu group substituted with hydroxy, and R3 has 16 to 24 carbon atoms and O or is an aliphatic hydrocarbon group containing one double bond and optionally substituted with hydroxy. ] and optionally C) Formula (■): R'-Co-R5(m) ketones It relates to an antifoaming agent containing.

The fact that it can be advantageously increased by It has been found to be highly suitable for use as a chlorine-stable foam suppressant for applications. Found. In the present invention, by adding a small amount of fatty ketones, the antifoaming properties are improved. The observations include that performance characteristics can be improved more than expected. difference Furthermore, the formulation is characterized by easy biodegradation, making it an ecologically safe product. meet the general requirements for

Fatty alcohols of the formula (I) which are suitable as component a) contain from 16 to 24 Contains carbon atoms. Typical examples are cetyl alcohol, stearyl alcohol, 1 2-Hydroxystearyl alcohol, arachyl alcohol and behenyl alcohol It's a call.

As is common in oleochemistry, fatty alcohols are also used in the form of industrial fractions. You can also do that. Suitable starting materials for this purpose are, for example, rapeseed oil rich in erucic acid. , peanut oil, castor oil, meadowfoam oil ), beef tallow or fish oil based methyl esters, which are amenable to high pressure hydrogenation. I need. In addition to reducing the ester group to a hydroxyl function, Sometimes, even the double bonds present in the fatty chains are saturated. particularly advantageous sex Antifoaming agents with functional properties have an iodine value of 10 or less, preferably between 0.1 and 5. It contains a fatty alcohol whose carbon chain length is within the above range.

Fatty alcohol mixtures particularly suitable as component a) for producing the defoamers of the invention The following carbon chain distribution: <C1g+Q ~ 6% by weight C+a: 35-71% by weight C2゜: 4-33 weight% C2□: 20-52 weight% 〉C2□　：　～　9　weight% can be characterized by

It has a hydroxyl value of 180 to 200, a softening point of 50 to 60°C, and a beef fat content. Rui is a fat obtained as lees when a fatty alcohol based on rapeseed oil is distilled. Particular preference is given to fatty alcohols or fatty alcohol mixtures.

The wax ester of formula (n) which can be used as component b) is , is understood to be an ester of C1644 fatty acid and Cl6-24 fatty alcohol. . Typical examples are valmitic acid, stearic acid, 12-hydroxystearic acid , arachidic acid and behenic acid, cetyl alcohol, stearyl alcohol, 1 2-Hydroxystearyl alcohol, arachyl alcohol and behenyl alcohol It is an ester with a call. Furthermore, the wax ester has a fatty acid side and a fatty acid Both coal sides may contain small amounts of unsaturated components. Iodine value is 10 or less, preferably Preferably, the wax ester is within the range of 0.1 to 5. A typical example is Thearyl stearate, stearyl behenate and behenyl behenate . The product already contains pure or technical fatty acids and the corresponding fatty alcohols. It can be produced by esterification using known methods. A characteristic feature of the present invention Embodiments include hydrogenation of Cl644 fatty acid methyl esters to form the corresponding fatty alcohols. The use of industrial wax esters obtained as residues when producing It is characterized by

Fatty ketones of formula (I[r) which can be used as optional component C) is a known substance obtained by appropriate organic chemical synthesis methods. For example, the formula (III ) Fatty ketones, denoted by It can be produced from fatty acid magnesium salt by pyrolysis at above temperature. It is possible [German Patent Publication No. 2553900]. Typical examples are palmitic acid, Stearic acid, arachidic acid, behenic acid, and technical mixtures thereof (e.g. Manufactured by thermal decomposition of magnesium salt of c+g-+s beef tallow fatty acid) Fatty ketones. Using stearone (18-pentatriacontanone) is preferred.

Generally, antifoaming agents contain 80-98% by weight of fatty alcohol, preferably 90-95% by weight. % by weight (i.e. 2-20% by weight of wax ester, preferably 5-12% by weight) %), and also contains 0.1 to 10% by weight, preferably 2 to 8% by weight of fatty ketones. obtain. All these soaking degrees are relative to the sum of components a), b) and C). be.

The defoamers of the invention can be used in bulk. However, the preferred A new embodiment includes components a) and b) in carrier oils, and optionally C), characterized in that a dispersion consisting of The oil content amounts to a total of 10-95, preferably 50-90.

Typical vehicle oils include, for example, mineral oil, paraffin oil, noalkyl ethers, among others. ke-di-n-octyl ether, and Guerveal containing 16 to 32 carbon atoms. It's a call.

Additionally, antifoaming agents may include stabilizers (e.g. alkaline earth metal soaps and/or alkaline earth metal soaps and/or (luminium soap, hydrophobized silica, layered silicates), tackifiers (especially polymers) acrylates), and nonionic surfactants (e.g., alkyl glucosides or or mixed ethers).

If the formulation does not contain components a), b), and optionally c) L, then up to a temperature above the melting point of the component with the highest melting point while stirring the substance for as long as Heat and then allow the melt to solidify. In medium oil, component aLb), and optionally C), stirring may be carried out at room temperature. . In both cases, no chemical reaction takes place.

The defoamers of the present invention provide foam suppression or It has a foam regulating effect. The antifoaming agent of the present invention is stable against active chlorine and active oxygen. , furthermore, is easily biodegradable.

Accordingly, the present invention also provides cleaning products for hard surfaces (e.g. dishwasher detergents, Detergent for cleaning moving bottles, CIP (household cleaning (cleaning in place) )) products, including degreasing agents for metal surfaces constituting automobile bodies). It also relates to the use of the defoamer according to the invention as an additive. Defoamers should be used in cleaning products. , 0.1 to 10% by weight, preferably 1 to 5% by weight, can be added to the cleaning product. Wear.

The defoamers of the invention can also be used as foam suppressants and deaerators in the production of paints and lacquers. wastewater originating from sewage treatment plants, e.g. metalworking and paper manufacturing. It is also suitable as a foam suppressor when treating wastewater originating from industrial processes such as be.

The invention is illustrated by the following examples without any limitation.

Example ■, Compounds used explanation: Medium oil: Pioneer mineral oil No. 4556 fatty alcohol mixture, carbon chain distribution <C10: 5% by weight C+s: 50% by weight C2゜ = 10% by weight CD + 30% by weight ＞　C2□　: 5% by weight Hydroxyl value: 190 Iodine value: 4 Softening point = 53℃ Rolol (trademark) C16: Industrial cetyl alcohol Rolol (trademark) C18: Industrial Stearyl Alcohol Stenol (Trademark) 1822: Industrial Beheny Alcohol [All of the above are products of Henkel KGaA] Kusester: Obtained from the residue when beef tallow fatty acid methyl ester is hydrogenated. industrial stearyl stearate Hydroxyl value = 93 Saponification value: 45 Iodine value = 5 Softening point = 50℃ ■、Application example Examples 1-5: 2% by weight sodium dodecylbenzenesulfonate (Na) salt aqueous solution [Malany Maranil (trademark) A2B, approximately 50% by weight, product of Henkel] 50 Pour 0 mA' into a two-layer graduated cylinder (capacity 2.00 On+1). Ta. Laboratory flow induction device (dead volume: 100 Remove the solution from the bottom of the graduated cylinder through the glass tube using did. Pass the liquid through a second tube whose lower end is located at the upper end of the graduated cylinder. I got my body back. The solution was circulated at a delivery rate of 41/min and dropped into the graduated cylinder. This process produced bubbles. Volume is 2゜000mA' (liquid 400mA' When the volume reaches 1,600 m1), add 1.5 mA' of antifoam agent (formulation A=E) was added to the foam in the column. Bubbles and bubbles at regular intervals for 0.5 to 30 minutes. The volume consisting of liquid was read. Table 2 shows the results of foam measurement at 20°C.

*) Volume = liquid + foam n3 Cavity”■ Main edition 4K Continuation of front page (72) Inventor Köhler, Michael Day-4020 Messenger of the Federal Republic of Germany Toman, Amselveke No. 19 (72) Inventor: Stanislovsky, Daytlef, Federal Republic of Germany Day-4 030 Ratheingen, Mettmanner Strasse 181

Claims (12)

[Claims] 1. a) Formula (I): R1OH(I) [In the formula, R1 is the following carbon chain distribution: <　C18　: 0-9% by weight C18: 32-88% by weight C20: 2-43% by weight C22: 4-52% by weight >C22: 0-15% by weight is a linear, saturated alkyl group optionally substituted with hydroxy] fatty alcohol, denoted by b) Formula (II): R2CO-OR3(II) [In the formula, R2CO optionally contains 16 to 24 carbon atoms and 0 or 1 double bonds. is an acyl group substituted with hydroxy, and R3 has 16 to 24 carbon atoms and 0 or is an aliphatic hydrocarbon group containing one double bond and optionally substituted with hydroxy. ] and optionally c) Formula (III): R4-CO-R5(III) [In the formula, R4 and R5 independently represent a C15-24 alkyl group] fat ketones Antifoaming agent containing. 2. The fatty alcohol represented by formula (I) has a hydroxyl value of 180 to 200. The antifoaming agent according to claim 1, characterized in that: 3. The fatty alcohol represented by formula (I) has a softening point of 50 to 60°C. The antifoaming agent according to claim 1, wherein the antifoaming agent has a characteristic. 4. For the sum of components a), b) and c), the fatty alcohol of formula (I) According to any one of claims 1 to 3, the composition contains 80 to 98% by weight of Antifoaming agent. 5. For the sum of components a), b) and c), the wax etchant of formula (II) Any one of claims 1 to 4, characterized in that it contains 2 to 20% by weight of stellate. Antifoaming agent as described. 6. For the sum of components a), b) and c), the fatty ketone of formula (III) According to any one of claims 1 to 5, the composition contains 0.1 to 10% by weight of Antifoaming agent as described. 7. Defoaming according to any one of claims 1 to 6, characterized in that it contains a medium oil. agent. 8. Defoaming according to any one of claims 1 to 7, characterized in that it contains a stabilizer. agent. 9. Antifoam according to claims 1 to 8 as an additive in cleaning products for hard surfaces. use of agents. 10. Adding 0.1 to 10% by weight of antifoaming agent to the cleaning product. Use according to claim 9, characterized in that. 11. As a foam suppressor and deaerator in the production of paints and lacquers, as claimed in claims 1- Use of the antifoaming agent according to item 10. 12. Claims as a foam suppressant when treating wastewater originating from sewage treatment plants Use of an antifoaming agent according to items 1 to 11.