DE19811663C2 - Process for the production of a highly porous adsorptive cleaner based on an amino-terminated polymer - Google Patents

Description

The invention relates to a method for producing highly porous adsorbents based amino-terminated prepolymer made from polymers containing amide groups, which are used for cleaning Waste water, preferably to remove dyes and other troublesome water Ingredients such as AOX and surfactants can be used.

The polymers used as starting materials can be used both in the form of new goods and in Form of recyclates or waste material can be used, mixtures with each other which and of different polymers are possible.

The use of synthetic polymers as adsorbents is known from the literature Removal of contaminants from aqueous media known. The use of poly amide chips for the adsorption of phenolic compounds is featured in patent DE 16 68 866 beat. However, the adsorption of dyes and their derivatives, such as. B. the Reak active dye hydrolyzates, insufficient on solid polyamide.

According to US Pat. No. 4,207,184, solvated, primarily hydrated are used as adsorbents Thermoplastic gels including polyamide or anionically modified polyamide looking. The gel is obtained by dissolving the polymer in a water-miscible, inorganic or organic solvents, e.g. B. mineral acids, and relapses by adding water or another precipitant to the polymer solution. The night Part of this process is that the mineral acids used as solvents cannot be recovered or can only be recovered with considerable effort and thus acidic waste water must be disposed of.

The use of specially modified polymers for cleaning waste water, especially Dyeing effluent by chemosorption is proposed in OS DE 44 26 913. The formation of difunctionalized prepolymers by amide conversion is essential group-containing, meltable polymer with di- or triamine compounds. The for the Application of the reaction product as the adsorbent required grain size achieved by grinding the solidified melt. This method has the disadvantage that un fusible polymers such as B. highly crosslinked polyurethanes under the specified Be Eliminate conditions of a reaction with the amines and thus insufficient adsorb reach ability. Another disadvantage is that for a high adsorb the necessary large surface area by grinding to the required grain size must be effected.

Aim of the invention

The aim of the invention is to provide a method for producing a highly porous adsorption means for the purification of waste water based on polymers containing amide groups through targeted degradation to develop amino-terminated prepolymers, including un fusible polymers can be used. As polymeric starting materials new goods as well as recyclates and waste material can be used.  

The invention is based on the technical problem of corresponding amide groups Modify polymers, including in the form of their waste, so that they act as adsorbents for the wastewater treatment are applicable. Not necessary for the production of these adsorbents agile auxiliary materials should be recoverable and reusable. Get the NEN adsorbents should be in a highly porous form. As starting materials all polymers containing amide groups can be used, even if they are crosslinked or otherwise special molecular structure does not count as thermoplastics.

It is known that polymers with reactive end groups allow chemosorption. For example, the number of amino end groups present in the polymer molecule is important for the absorption of anionic dyes. The accessibility of the reactive groups plays an important role, which is particularly encouraged by the formation of a porous structure. According to the invention, the simultaneous dissolving process and the targeted degradation of a macromolecule containing amide groups with amines give amino-terminated, adsorbable prepolymers with a pronounced porous structure. The products suitable for adsorption from aqueous solutions have a molecular weight between 500 and 3000, a dry content of approximately 30 to 50% and a pore volume of 0.05 to 0.2 cm ³ / g. The molecular weight and thus the chemosorption capacity can be controlled via the addition amount of the amine compound, the porosity via the ratio solvent / sum of polymer + amine compound.

Compounds are used as solvents that have a good solvent power for polymers have, behave inertly under the reaction conditions and at temperatures below half of the melting point of the resulting prepolymers in the solid state go. Caprolactam is preferably used for this.

The solution and reaction of the polymer with the calculated amounts of solvent and amine compound, preferably a diaminoalkane with a chain length of C ₆ to C ₁₂ , e.g. B. 1,6-diaminohexane or 1,12-diaminododecane, is carried out under an inert gas atmosphere in a stirred reactor with thorough mixing of the components using temperatures in the range of 100 ° C to 300 ° C, preferably between 140 ° C and 240 ° C. Waste material of polyamide 6, polyamide 66 and rigid polyurethane foam is preferably used as the starting polymer.

All aliphatic, aromatic and aromatic-alipha also come as starting polymers tables, meltable polyamides, and other polymers with amide bond of the general Structure [R'-CO-NH-R "], such as fusible and infusible polyurethanes, and those which additionally contain tertiary imine, ester, ether, imide bonds.

The following compounds are used as diamines in pure form or in mixtures:

H ₂ N- (CH ₂ ) _m NH ₂ (I)

m = 3 to 16

H ₂ N- (CH ₂ ) _n -O- (CH ₂ ) _o -O- (CH ₂ ) _n -NH ₂ (II)

n = 2 to 4
o = 2 to 4

p = 1 to 3

[H ₂ N- (CH ₂ ) _r ] ₃ ] -N (IV)

r = 1 to 3

The degree of degradation of the polymers is determined by the amount of the amine compound added Right. The adsorption capacity of the amino-terminated prepolymers, for which molecular weights in the range from 500 to 3000 are important become.

In order to achieve the porosity of the amino-terminated prepolymer, the solvent is extracted after the solution has cooled and solidified. Water or lower alcohols and mixtures thereof can be used as the extracting agent, water preferably being used. This process leads to a highly porous, fine-grained to pasty product with a specific surface area of approx. 30 to 100 m ² / g and a pore volume of 0.05 to 0.2 cm ³ / g. The macroscopic structure, like the dry content and the surface parameters, is determined by the ratio solvent / total polymer + amine compound. The product obtained after the extraction, which is moist when using water as the extraction agent, can be used in this form as an adsorptive cleaner. Removal of the remaining extractant by freeze-drying is possible. The hochpo rös adsorbent is easy to handle and can be easily separated from the waste water. The solvent can be recovered and reused by extraction and / or distillation.

embodiments example 1

60 g polyurethane integral hard foam (regrind, grain size ≦ 250 µm) from waste material mixed with 40 g of 1,12-diaminododecane and 234 g of caprolactam. While stirring and returning The mixture flows in the reactor at 140 ° C to 160 ° C under a weak nitrogen electricity treated. After a period of about 3 hours, the relatively low-viscosity solution of the polymer in caprolactam poured onto a sheet so that they cool in a thin layer and can freeze with it. The solid product is roughly broken for further processing. The crushed product is extracted three times with approx. 400 ml water and the solid back was washed on a suction filter.  

The adsorption capacity of the moist, pasty product is tested against a model waste water, consisting of a mixture of five different reactive dye hydrolysates in a total concentration of 0.2 g / l. The adsorbent obtained is able to fall below the limit of the transparent color number of the model wastewater of 5 m ^-1 in 50 minutes in a dynamic adsorption process with a liquor ratio of 3 g / l (based on dry matter). The concentration of an AOX carrier present at the same time is reduced by 3.3 mg / l.

Example 2

60 g polyurethane integral hard foam (regrind, grain size ≦ 250 µm) from waste material mixed with 23.25 g 1,6-diaminohexane and 195 g caprolactam. With stirring and The mixture is refluxed in the reactor at 140 ° C. to 160 ° C. under a weak stick treated material flow. After a period of about 3 hours, the relatively low viscosity Solution of the polymer in caprolactam poured onto a sheet so that it is in a thin layer can cool down and freeze. The solid product becomes rough for further processing Broken. The crushed product is extracted three times with about 400 ml of water and the Washed solid residue on a suction filter.

The adsorption capacity of the moist, pasty product is tested against a model waste water, consisting of a mixture of five different reactive dye hydrolysates in a total concentration of 0.2 g / l. The adsorbent obtained is able to fall below the limit of the transparent color number of the model wastewater of 5 m ^-1 in about 80 minutes in a dynamic adsorption process with a liquor ratio of 3 g / l (based on dry matter). The AOX content of the model waste water is simultaneously reduced from 1.8 mg / l to 0.1 mg / l.

Example 3

140 g of polyamide 6 - waste material (granules), 35 g of 1,12-diaminododecane and 240 g of Capro lactam are mixed well (solvent / reactant ratio = 60/40). The Mixture is flushed with a stream of nitrogen for about 30 minutes in the reaction vessel, the inlet pipe should extend to just above the bottom of the vessel. After that under a gentle stream of nitrogen to 200 ° C to 240 ° C with stirring and reflux hitzt. After a treatment period of about 1 hour, the relatively low-viscosity solution of the polymer is poured into a sheet of caprolactam, where it cools down in a thin layer and can freeze. The solid product is roughly broken for further processing, three times with Extract approx. 500 ml water and wash the solid residue on a suction filter.

The adsorption capacity of the moist, pasty product is tested against a model waste water, consisting of a mixture of five different reactive dye hydrolysates in a total concentration of 0.2 g / l. The adsorbent obtained is able to fall below the limit of the transparent color number of the model wastewater of 5 m ^-1 within 24 hours in the static adsorption process at a liquor ratio of 5 g / l (based on dry matter).

Example 4

100 g of polyamide 66 granules, 16 g of 1,12-diaminododecane and 450 g of caprolactam are good mixed together (ratio solvent / reactants = 80/20). The mixture is in Flushed reaction vessel with a stream of nitrogen for about 30 minutes, the Einlei pipe should reach just above the bottom of the vessel. After that is under a schwa Chen nitrogen stream heated to 200 ° C to 260 ° C with stirring and reflux. After a loading treatment time of 2 to 3 hours, the relatively low-viscosity solution of the polymer in Caprolactam poured onto a sheet where it can cool and solidify in a thin layer. The solid product is roughly broken for further processing, three times with approx. 500 ml Water extracted and the solid residue washed on a suction filter.

The adsorption capacity of the moist, pasty product is compared to a model water, consisting of a mixture of five different reactive dye hydrolysers were tested in a total concentration of 0.2 g / l. The adsorbent obtained is able to use the static adsorption process with a liquor ratio of 5 g / l (referred to dry matter) within 24 hours the limit of the see-through color number of the model wastewater from 5 ml to almost complete decolorization. The The AOX content of the model wastewater is simultaneously reduced from 2.55 mg / l to 0.75 mg / l.

Claims (14)

1. A process for the preparation of a highly porous Adsorptivrei nigers, characterized in that amide group-containing polymers by simultaneous dissolving and reaction with diamine and / or triamine compounds to functionalized prepolymers with amino end groups who implemented the. 2. The method according to claim 1, characterized in that Compounds that are a solvent can be used as solvents assets for polymers range from <1% to 50% and at temperatures below the melting point of the resulting prepolymers in the solid state of aggregation go. 3. The method according to claim 1 and 2, characterized in that caprolactam is used as solvent. 4. The method according to claim 1 to 3, characterized in that the solvent is used in an amount that 40th is up to 90% by mass of the total reaction mixture.   5. The method according to claim 1, characterized in that compounds of the formulas as amines
H ₂ N- (CH ₂ ) _m -NH ₂ (I)
m = 3 to 16
H ₂ N- (CH ₂ ) _n -O- (CH ₂ ) _o -O- (CH ₂ ) _n -NH ₂ (II)
n = 2 to 4
o = 2 to 4
p = 1 to 3
[H ₂ N- (CH ₂ ) _r ] ₃ -N (IV)
r = 1 to 3
used individually or as mixtures with one another. 6. The method according to claim 1 and 5, characterized in that a diaminoalkane H ₂ N- (CH ₂ ) _m -NH ₂ with m = 6 to 12 is preferably used as the amine compound. 7. The method according to claim 1, characterized in that as amide group-containing polymers, purely aliphatic or aliphatic-aromatic or purely aromatic be that are fusible or infusible and as Polymer compounds with tertiary imine, ester and / or Ether or imide compounds can be present and pure or can be used in mixtures with each other. 8. The method according to claim 1 and 7, characterized in that as polymers polyamide 6, polyamide 66, polyu rethane soft foam, rigid polyurethane foam or polyurethane  Elastomers used pure or in mixtures with each other become. 9. The method according to claim 1, 7 and 8, characterized net that the polymers as recyclates, regrind or waste materials rial pure or in a mixture with each other. 10. The method according to claim 1 to 9, characterized in that the simultaneous implementation and solution in Temperaturbe range from 100 ° C to 300 ° C. 11. The method according to claim 1 to 10, characterized in that the amine compound with that containing the amide bonds Polymer together in the reaction vessel with thorough mixing in the Solvent is dissolved, with a reaction time of 10 up to 180 minutes under an inert gas atmosphere is required. 12. The method according to claim 1 to 11, characterized in that that the solvent after the reaction at temperatures is extracted below its fixed point. 13. The method according to claim 1 and 12, characterized in that as an extractant water and / or lower alcohols or mixtures thereof, but preferably water is used. 14. The method according to claim 1 to 13, characterized in that that the resulting, highly porous prepolymers in moist Condition or after freeze drying for cleaning of waste water, preferably for the removal of dye fen, their derivatives and / or AOX are used.