NO842130L - AUXILIARY, STABLE SUSPENSIONS OF WATER SOLUBLE FOR BONDING OF CALCIUM IONS SUCH SILICATES AND THEIR USE FOR THE PREPARATION OF PHOSPHATE STANDARDS FOR WASHING AND CLEANING AND PHOSPHATE REMOVALS - Google Patents

Description

Methods have already been proposed for washing and cleaning solid materials, especially textiles, as well as washing and cleaning agents suitable for carrying out the method, where the role of calcium complex-binding phosphates is completely or partially taken over by fine-distributed, usually bound water-containing, water-insoluble phosphates suitable for binding calcium aluminum silicates (ref. DE-OS 24 12 837).

These are compounds with the general formula I

in which Kat means a calcium-exchangeable cation of valency n, x means a number from 0.7 to 1.5, Me means aluminum and y means a number from 0.8 to 6, preferably from 1.3 to 4.

The cation ion is preferably sodium, but it can also be replaced with lithium, potassium, ammonium or magnesium.

The compounds defined above which are capable of binding calcium are referred to below for reasons of simplicity as "aluminium silicates". This also applies in particular to the preferably used sodium aluminum silicates, all statements made for their use according to the invention and all statements about their production and properties apply correspondingly to the totality of all the above-mentioned compounds.

The aluminum silicates particularly suitable for use in detergents have a calcium binding capacity of preferably 50 to 200 mg CaO/g of anhydrous aluminum silicate. If in the following reference is made to anhydrous aluminum silicate, then the state of the aluminum silicate which is obtained after 1 hour of drying at 800°C is meant. By

During this drying, the adhering and bound material is removed

water practically completely.

In the production of washing and cleaning agents in which

next to normal components, such agents are present in the above-defined aluminosilicates, also preferably from aluminosilicates that are moist, for example ends from their manufacture. The moist compounds are thereby mixed together with at least part of the other components and agents to be produced, and the mixture is transferred using known precautions such as e.g. atomization techniques or ready-made washing or cleaning agents as an end product, for example into a drip-proof product.

Within the framework of the above-mentioned manufacturing process for detergents and cleaning agents, the respective application of the aluminum silicates is provided, for example, as an aqueous suspension. Thereby, certain improvements to the suspension properties would be desirable, e.g. the suspension stability and pumpability of the aluminum silicates dispersed in the aqueous phase.

It is known to form aluminosilicate suspensions

to use alkylphenolethylene adducts. Adducts with 6-7 mol of ethylene oxide are preferably used (DE-OS 26 15 698).

De DE-OS 30 12 295 are known aqueous sodium aluminosilicate suspensions which contain a part dissolved in the water phase, referred to the suspension 15 to 50% by weight of trisodium salts of nitrilotriacetic acid.

From DE-OS 32 09 631 suspensions of water-insoluble silicates are known which, as a dispersing active ingredient, contain 0.5 - 6% by weight of a mixture of at least two different alkylphenol ethylates with the formula

It has now been found that certain mixtures of alkylphenol ethoxylates to a very special degree have the ability to stabilize suspensions of the above-mentioned calcium-binding aluminosilicates so that even with a high solids content these are stable for a long time and remain dormant for a longer period of time and are also easily pumpable. Surprisingly, it has been shown that these specific mixtures are able to keep moist aluminosilicates that have a water content of 70% and are less sedimentation stable for a long time without stirring.

The object of the invention is aqueous, pumpable, stable suspensions of a water-insoluble silicate capable of binding calcium in the form of a finely divided synthetically produced, water-insoluble compound containing bound water,

and with the general formula

wherein Kat means a calcium-exchangeable cation of valency n, x means a number from 0.7 to 1.5, Me means boron or aluminum and y means a number from 0.8 to 6, and which contains the water-insoluble silicate which is capable of binding calcium ions in amounts of 0.5 to 80% by weight and as dispersing active ingredient contains 0.5 to 6% by weight of a mixture of at least two different alkylphenol ether oxylates of formula

wherein the suspension is characterized by having a part dissolved in the water phase and referred to the suspension, 4 to 25% by weight of trisodium salts of nitrilotriacetic acid with the

precaution that the suspension contains at least 20% by weight of water.

In formula II, R can mean an aliphatic residue with 1 to 15 C atoms, for example -CH 2 , -C 2 H 2 - P 2 propyl, butyl, pentyl, preferably with 9 C atoms such as nonyl.

In the case of one alkylphenol ethyl oxylate used in the mixture, n can mean 2-7, preferably 4-6, especially 5 and in the case of the other alkyl phenyl ethoxylate 8-15, preferably 8-12, especially 9

or 10.

In the suspension according to the invention, component A can be crystalline.

In formula I of component A, y can mean a number from 1.3 -

4.

The above-mentioned compounds are the essential constituents

of the suspension according to the invention. However, it may also contain additional components, so e.g. antifoam additives, respectively so-called solubilizers, i.e. compounds that improve the solubility of the added dispersant in the aqueous phase.

As defoamers, the usual defoamers can be used, for example defoamer soap, silicone defoamers, defoamer triazine derivatives, all of which are known and common to professionals. Such an addition is usually not necessary, however, foaming dispersants may be desirable, especially at higher alkylbenzenesulfonic acid amounts used.

An addition of solubilizing substances is also not usually necessary, but may be suitable when the suspension according to the invention as a stabilizing agent contains a hydrophilic but slightly water-soluble colloid such as polyvinyl alcohol. Preferably used e.g. a solubilizer, dimethylsulfoxide is very suitable, when the concentration used of a stabilizing agent which is only slightly soluble in water for reason 1 is higher than approx. 1%. The amount of solubilizing agent in the overall suspension can, for example, be in the same order of magnitude as the amount of stabilizer. Further compounds suitable as solubilizers are generally known to those skilled in the art, hydrotropic agents such as, for example, benzenesulfonic acid, toluenesulfonic acid, xylenesulfonic acid or their water-soluble salts or also octyl sulfate are suitable.

All references to "concentration of aluminosilicates" to "solids content" or to content of "active substance" (=AS) refer to the state of the aluminosilicates obtained after 1 hour of drying at 800°C. During this drying, adhering and bound water is practically completely removed.

In the case of the aluminum silicates to be used by component A

it may be amorphous or crystalline products, as mixtures of amorphous and crystalline products and also semi-crystalline products are of course also applicable. The aluminum silicates can be naturally occurring or

also synthetically produced products, the synthetically produced products being preferred. The production can e.g. take place by reaction of water-soluble silicates with water-soluble aluminates in the presence of water. For this purpose, aqueous solutions of the starting materials can be mixed with each other or one component present in a solid state can be reacted with the other component present as an aqueous solution. Also by mixing both components present in the solid state, the desired aluminum silicates are obtained in the presence of water. Also from A1{0H)^, A^O^or Si02lar. aluminum silicates are produced by reaction with alkali silicate or aluminium-minium solutions. The production can also take place according to other known methods. In particular, the invention relates to aluminum silicates which have

a three-dimensional space lattice structure.

The calcium binding capacity, which lies approximately in the range from 100 to 200 mg CaO/g AS, mostly at approx. 100 to 180 mg CaO/g AS is found above all in compounds with the composition:

This sum formula includes two types of different crystal structures (respectively their non-crystalline precursors) which also differ by their sum formulas. They are these:

The different crystal structures are shown in X-ray diffraction diagrams.

The amorphous or crystalline aluminum silicate present in aqueous suspension can be separated from the remaining aqueous solution by filtration and dried at temperatures of e.g. 50 to 400°C and higher. Depending on the drying conditions, products containing more or less bound water.

Such high drying temperatures are usually not recommended. It is most appropriate not to exceed 200°C when the aluminum silicate is intended for use in detergents and cleaning agents. However, the aluminum silicates do not need to be dried at all after their preparation for the preparation of the suspension according to the invention. It is also possible, and this is particularly advantageous, to use an aluminum silicate still moist from the time of manufacture. They let themselves. however, also use medium temperatures, for example at 80-200°C until removal of adhering volatile water dried aluminum silicate for preparing the suspension according to the invention.

The average particle size of the individual aluminum silicate particles can be different, and e.g. lie in the range between 0.1 and 0.1 mm. These surroundings refer to primary particle size, i.e. the size of the particles formed by the precipitation and possibly the subsequent crystallization. With particular advantage, aluminum silicates are used which consist of at least 80% by weight of particles with a size of from 10 to 0.01 u, especially from 8 to 0.lu.

Preferably, these aluminum silicates contain approximately no primary or secondary particles with a diameter greater than 45 µm. Secondary particles are particles that are formed by agglomeration of primary particles into larger structures.

With regard to the agglomeration of primary particles into larger structures, the use of aluminum silicates that are still moist from their production for the production of the suspension according to the invention has proven to be particularly suitable, as it has been shown that when using these products that are still moist, the binding is practically completely the formation of secondary particles.

In a particularly preferred embodiment of the invention, powdered zeolite of type A is used as component A

with specially defined particle spectrum.

Such zeolite powders can be produced according to DE-AS 24 47

021, DE-AS 25 17 218, DE-OS 26 52 419, DE-OS 26 51 420,

DE-OS 26 51 436, DE-OS 26 51 437, DE-OS 26 51 445, DE-OS

26 51 485. They have the particle distribution curves specified there.

In a particularly preferred embodiment, it can be used

a powdered zeolite of type A having a in DE-OS 26

51,485 mentioned particle size distribution.

The concentration of the components according to formula I can preferably amount to 21-55% by weight, especially 33-44% by weight and more.

The component that acts as a dispersant is a mixture of at least 2 alkylphenol ethoxylates with the formula

These alkylphenol ethoxylates can be used in any desired mixture, preferably in a ratio of 1:9 to 9:1, preferably 2:3

to 3:2, especially 0.9:1.1 to 1.1:0.9. Thereby, these alkylphenol ethoxylates correspond in particular to formula II in which R means nonyl and n means 5 or 9 respectively.

The concentration of this mixture in the aqueous suspension can preferably be from 1-2% by weight, in particular 1.4 -

1.6% by weight. This concentration is sufficient to stabilize a suspension with a solids content (aluminosilicate according to formula I) of 50% by weight and more.

The suspension according to the invention has the advantage that it is sedimentation stable in the temperature range from 10-50°C and has a pumpable consistency.

A further advantage is that the alkylphenol ethoxylate is liquid at room temperature and therefore does not need to be heated.

Of particular advantage is that in the suspension according to the invention a clearly higher solids content of 50% by weight can be achieved

% and more.

In principle, the aqueous suspensions can, in addition to the aforementioned components and in addition to any substances still remaining from the starting materials for the production of these components, also contain additional components in relatively small quantities. If further processing of the suspension into washing and cleaning agents is prescribed, then the additional substances present are of course, in terms of purpose, substances that are suitable as components of washing and cleaning agents.

The suspensions can be prepared by simple mixing of their constituents or the aluminum silicates, e.g. can be used as such or possibly from production already moist or aqueous suspension.

It may. however, of course, already dried, i.e. freed from adhering water, optionally still bound hydrous aluminum silicate is also used. The suspension according to the invention is distinguished by high stability and by further advantages. Their stabilizing effect is particularly valuable in the case of aluminosilicates with an average particle size of 3-50 u. They are pumpable, so that they enable easy handling of moist aluminum silicates. Even after longer interruptions in the pumping process, the suspensions are easily repumpable. Due to their high stability, the suspensions are also transportable in ordinary tank and tank wagons without fearing the formation of unusable or disturbing residues. Thus, the suspensions are eminently suitable as a form of delivery of aluminum silicates for delivery to, for example, detergent manufacturers.

The suspensions can be stored at room temperature or at higher temperatures, can be transported using pipelines, pumps or in other ways. For the most part, handling of the suspensions takes place at temperatures between room temperature most preferably, and approx. 60°C.

Due to their special stability, the suspensions according to the invention are already usable as such, i.e. without further processing with or without additional washing, bleaching and/or cleaning additives, for example as a water softener, wax or cleaning agent and especially as a liquid scrubbing agent with increased suspension stability.

A particularly important application of the suspension is the further processing into run-off washing and cleaning agents that appear dry, which contain additional compounds in addition to the suspension components.

The suspension according to the invention is particularly suitable for the production of powdered detergents and cleaning agents.

In the production of these agents, the starting point is an aqueous, flowable premix of the individual components of the agent, this is transferred in the usual way into a flowable product. Thereby, the aluminum silicates defined above are used

in the form of the suspension according to the invention. The suspension according to the invention can be processed according to desired known methods into the solid, runny, washing and cleaning agents.

In particular, in the production of powdery, runny washing and cleaning agents, one proceeds in such a way that one mixes a suspension according to the invention, for example from a storage container, with at least one washing, bleaching or cleaning active component of the agent to be produced and then transfers the mixture after the desired process for the powdered product. Preferably, a complexing agent is added, i.e. a compound which manages to complex bind the alkaline earth metal ions responsible for the water hardness, especially magnesium and calcium ions.

Usually, in the production of washing and cleaning agents, the suspension according to the invention is preferably combined with at least one water-soluble surfactant which does not belong to the possible components of the suspension.

In the manufacture of detergents and cleaning agents, there are different variants. For example, the suspension according to the invention can be combined with substances suitable for binding crystal water appropriately by spraying the suspension, and the compounds are filled in a mixer and which are capable of binding crystal water so that by constant mixing a final solid product is obtained which appears dry. Preferably, however, the suspension according to the invention is mixed as a "slurry", subjected to at least one further washing, bleaching or purifying compound and spray drying. Hereby, further surprising advantages of the aluminum silicate suspension according to the invention are revealed. Namely, it has been shown that by using the suspension according to the invention by spray drying, very low-dust products can be obtained. The products formed by spray drying have a high calcium binding capacity and are well wettable.

Detergents which have been prepared using the above-mentioned suspension can be composed of the different

st ways. Usually they contain at least one water-soluble surfactant which does not belong to the dispersants used according to the invention which are present in the aluminum silicate suspension according to the invention. Usually they contain, in addition to at least one further compound which has a washing, bleaching or cleansing effect, and is inorganic or organic, such as a calcium-binding compound, an aluminum silicate as defined above. In addition, other common excipients and additives may be present in such agents, mostly in smaller amounts.

The suspension according to the invention is particularly suitable for further processing into friable granule-shaped products which appear dry, i.e. for example for the production of powdered water hardness agents, e.g. by spray drying. Thus, the suspension is of considerable importance in the production of powdered phosphate substitutes for washing and cleaning agents. No harmful residues occur when the aqueous suspensions are supplied to the drying equipment. Furthermore, it has been shown that the suspension according to the invention enables processing into extremely dust-free products.

ter which has a low volume density.

A further object according to the invention is a granule-shaped phosphate substitute for detergents and cleaning agents consisting of a water-insoluble silicate capable of binding calcium ions in the form of a finely divided, bound aqueous, synthetically produced water-insoluble compound of the general formula

in which Kat is a calcium exchangeable cation of value n, x a number from 0.7 - 1.5, Me means boron or aluminum and y means a number from 0.8 - 6, a dispersing active component of a mixture of at least two different alkyl phenol ethoxylates of formula

and the trisodium salt of nitrilotriacetic acid.

The granular phosphate substitutes according to the invention can have a composition that corresponds to suspension and composition, taking into account that the aluminum silicate has a specific content of crystal water. In a particular embodiment of the invention, the granular phosphate substitute can have the following composition:

47 - 90% by weight atro aluminum silicate

8-50% by weight sodium salts of nitrilotriacetic acid

remainder to 100% by weight water

0.5 - 3.75% by weight alkyl phenol ethoxylate.

The phosphate substitute according to the invention has a considerably improved dispersibility and, due to its high volume density, requires a small packaging volume.

Examples.

Each time, 250 g of a mixture of a 42% slurry of HAB A 40 (zeolite A) in water with 11%, 20%, 37% and 50% NTA Na^ powder was used once and once without stabilizer (Marlophen 85/89). In doing so, it was taken into account that the NTA Na^ powder has an active ingredient content of 98%. The same was repeated with 44% and 46% slurries. The samples were dispersed for 5 minutes at 1000 rpm. minute with dissolver and once measured the viscosity with a Brookfield viscometer LVT. After 3 or 5 days standing time at room temperature, a clear phase, the homogeneity, surface conditions, bottom deposit and the consistency of the sample were determined (see

the table).

Atomization drying of the suspension took place under the following conditions: Warm air temperature: 400°C (electrical heating) Exhaust air temperature: 110 - 120°C

Atomizing pressure: 2 bar.

Claims (8)

1. Aqueous, pumpable, stable suspensions of a water-insoluble silicate capable of binding calcium ions and in the form of a finely divided, bound, aqueous synthetically prepared water-insoluble compound of the general formula wherein Kat means a calcium exchangeable cation of value 5, x means a number from 0.7 - 1.5, Me means boron or aluminum and y means a number from 0.8 - 6, which contains water-soluble silicate which is able to bind calcium ions in quantities from 0.5 to 80% by weight and as dispersing active ingredient 0.5-6% by weight of a mixture of at least two different alkylphenol ethoxylates with formula characterized in that they have a portion of the referred suspension dissolved in the water phase 4-25% by weight of tritium salt of nitriolotriacetic acid with the precaution that the suspension contains at least 20% by weight of water. 2. Suspension according to claim 1, characterized in that the components of formula I are crystalline. 3. Suspension according to claim 1 or 2, characterized in that in formula I y means a number from 1.3 - 4. 4. Suspension according to claims 1-3, characterized in that the components of formula I are a zeolite A. 5. Suspension according to claims 1-4, characterized in that the components with formula II consist of a mixture of 2-alkylphenol ethoxylate with formula II, wherein in one alkylphenol ethoxylate n = 2 to 7 and in the other alkylphenol ethoxylate n = 8 to 15. 6. Suspension according to claim 5, characterized in that the mixing ratio of the two alkylphenol ethoxylates is 1:9 to 9:1. 7. Use of the aqueous suspension according to claims 1-6 for the production of powdered or granulated phosphate substitutes for detergents and cleaning agents by means of atomization technique. 8. Phosphate substitute for detergents and cleaning agents consisting of a water-insoluble silicate capable of binding calcium ions in the form of a finely divided bound, aqueous, synthetically produced water-insoluble compound of the general formula in which Kat means a calcium-exchangeable cation with value n, x means a number from 0.7 - 1.5, Me means boron or aluminum and y means a number from 0.8 - 6, a dispersing active component of a mixture of at least two different alkylphenol ethoxylates of formula and the trisodium salt of nitrilotriacetic acid.