SU825544A1 - Method of isolating synthetic rubber from hydrocarbon solution - Google Patents

Description

(54) METHOD FOR CREATING SYNTHETIC RUBBER FROM HYDROCARBON SOLUTION

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The invention relates to the synthetic rubber industry and can be used in the production of: rubber lines in their production processes.

There is a known method for the separation of synthetic rubber by water degassing with the addition of anti-agglomerates, which are used, for example, the salt of a copolymer of maleic anhydride with alpha-dodecene l.

However, these anti-agglomerates have low biological oxidability, which leads to sewage contamination.

The closest to the proposed is a known method for the separation of synthetic rubber from a hydrocarbon solution by the method of water degassing in the presence of an antiaggmerarator, a calcium salt of styromaleic acid (styromal) 2.

The disadvantage of the known method is:; the fact that the use of these anti-agglomerators leads to contamination of wastewater and water basins, due to the fact that they have low biological oxidability.

The purpose of the invention is to reduce environmental pollution.

This goal is achieved by using the method of water degassing in the presence of an anti-agglomerator in the method of separating synthetic rubber from a hydrocarbon solution, using at least 2% of the weight of the potassium salt of vinyl ether cyclohexanecarboxylic acid copolymer with male oxy anhydride as anti-agglomerator.

A copolymer of vinyl ether cyclohexanecarboxylic acid with maleic anhydride, synthesized in block in the presence of benzoyl peroxide (1 wt.%) At 60 ° C. Basic physical 5 chemical properties. Tro | zl 180 ° C, it is soluble in benzene, toluene, dimethylformamide, tetrachloride, carbon, methyl chloride. poorly

0 soluble in water, lower alcohols, petroleum ether, hexane.

The introduction of the anti-agglomerator into the degasser is carried out either as an aqueous suspension or as a solution.

5 in methyl chloride.

Example 1. 40 g of butyl rubber crumbs (average diameter 5-7 mm), filled with an anti-agglomerator, are loaded into a glass flask containing 960 g of water at and pH 3

0

(worst conditions of work of the degasser and averager). For 3 hours, the crumbs of butyl rubber are stored in an aqueous medium with constant mixing. Visually show up during the entire test period. After the indicated time, the fractional composition of the crumb is determined. It remains unchanged from the original. According to the study, the biological oxidability of styromal is 29%, and 75% for the potassium salt of the vinyl ester of cyclohexanecarboxylic acid with maleic anhydride.

Examples 2-6. The process is carried out as in Example 1, but other amounts of anti-agglomerator are added. The results are shown in the table. Observed Observed Partially observable Not observable Not observable

The use of the proposed method for the isolation of synthetic rubber by the method of water degassing using potassium salt as the anti-agglomerator of the potassium salt co-polymer of cyclohex n-carboxylic acid vinyl ether with maleic anhydride reduces the toxicity of wastewater. This is due to the fact that, due to the absence of an aromatic ring, the anti-agglomerator, being in the wastewater, is subjected to biological oxidation.

The antiglomerator used reduces agglomeration of the crumb, thereby preventing clogging of the apparatus.

Claims (2)

Claim 20 30 35 A method of water degassing in the presence of an anti-agglomerator for synthetic rubber from a hydrocarbon solution, characterized in that at least 2% of the weight of the potassium salt of the copolymer is used as anti-agglomeration agent , cyclohexanecarboxylic acid vinyl ester with maleic anhydride. Sources of information taken into account in the examination 1. UK Patent No. 1475328, cl. C 3 P, published. 1977. 2. Sobolev V. M., Borodina I. V. Industrial synthetic rubbers. M., Himi, 1977, p. 177 (prototype).