SU1142456A1 - Method of biological decomposition of sulfosuccinic acid monoesters disodium salt and oxyalkylated alcohols in waste water - Google Patents

Abstract

METHOD OF BIOLOGICAL DECOMPOSITION OF DYNATRIC SALT OF MONOESTERS OF SULFOUNTANIC ACID AND OXIALCIROLATED ALCOHOLS IN WASTE WATER, that is, with the aim of simplifying the method with an effective treatment, in accordance with the standards, in order, in order, and in order, in a healthy way, it is necessary for health systems, which are in compliance with in-for-heart-for-women, who are provided with adequate, in-for-heart-for-all, in-kind, in a healthy, healthy and healthy, healthy, healthy, and healthy, in order to improve the way in which they have an emergency system, in order to ensure adequate health and health systems, in order to ensure adequate health, in order, in a healthy, healthy and healthy, healthy, healthy, and healthy, effective health and safety will help you in ordering to get a clean, healthy, healthy body with adequate cleaning and proper health care systems in order to simplify the process with adequate, healthy, healthy, healthy, and healthy and well-managed health systems that comply with healthy and healthy, healthy, healthy, and easy to use in order to ensure a clean body with adequate cleaning and proper cleaning and proper use of in-house treatment systems. in the amount of 0.02-0.05% by weight of the disodium salt of monoesters of sulfonic succinic acid and oxyalkylated alcohols.

Description

four; uh

y

ate

Od

The invention relates to chemical technology, in particular, to a method for the biological decomposition of an anionic surfactant, which is the disodium salt of sulfonic acid monoesters and oxyalkylated alcohols.

The issue of the biodegradation of surfactants is relevant since, in accordance with industry requirements, these substances must be removed from the runoff during biological treatment by no less than 80% in 6 hours. In connection with this, one of the research directions is to find ways to increase biodegradation. is the use of additives that stimulate the activity of bacterial enzymes.

There is a known method for the decomposition of alkyl benzene sulfonates using glucose L, as well as alcohols, aldehydes 2J.

However, since the metabolic pathways of surfactants with different structures and environmental influences are not well known, it is impossible to predict the effectiveness of a particular stimulator of biodegradation for each particular product. .

The degree of biodegradation of surfactants can be increased by using in sewage treatment plants not usually with (replaceable activated sludge, but a pure culture of a microorganism strain adapted to this product.

The closest to the proposed technical essence, and the achieved result is a method of purification of industrial wastes from the disodium salt of monoalkylsulfonic acid with the use of the Acromobacter curydice TC strain. This method provides intensive biodegradation (more than 80%).

The disadvantage of this method is the need to use local treatment facilities, which requires the creation of an additional workshop with special equipment and maintenance, and consequently, significant additional costs.

The purpose of the invention is to simplify the process with a similar degree of purification complying with sanitary standards.

The goal is achieved by the fact that according to the proposed method

Treatment with activated sludge is carried out in the presence of sebacic acid in an amount of 0.02-0.05% by weight of the disodium salt of sulphate-succinic acid monosferes and oxyalkylated alcohols.

When adding sebacic acid less than 0.02%, the stimulating effect either does not appear or does not provide a degree of decomposition that satisfies sanitary standards, and with an increase in the additive more than 0.05%, the development of microorganisms is suppressed

The degree of biodegradation and removal from the runoff is determined by the standard respirometric method and the method using IR spectroscopy.

For tests, activated sludge adapted to the product with sebacic acid added to it is used. The degree of biodegradation of the samples is determined at different concentrations of sebacic acid. The controls are tests that use activated sludge adapted to the product without sebacic acid.

Example 1. At room temperature, 0.01% sebacic acid is added to the disodium salt of sulphatic succinic acid and oxyalkylated alcohols, heated to 80 ° C and stirred for 5 hours. After that, the product is cooled and sent for biological decomposition with active sludge. After biodegraded with activated sludge, the degree of removal from the effluent is 77%.

Example 2 The process is carried out in the same manner as Example 1, but 0.02% sebacic acid is added. After decomposition by active sludge, the degree of removal from the runoff is 80%.

Example 3. The process is carried out according to Example 1, but 0.05% sebacic acid is added. After decomposition with silt, the degree of removal from

85% sink. .

Example 4. The process is carried out according to Example 1, but 0.07% sebacic acid is added. After decomposition of aicTHBHbiM by silt, the degree of removal from the effluent is 50%.

Example 5. The process is carried out analogously to example 1, but 0.1% sebacic acid is introduced. In this case, the removal of the product from the effluent after treatment with activated sludge is 35%.

 g 1

Example 6. Addition of sebacic acid and biodegradation with active sludge is carried out analogously to example 3. The intensity of biodegradation is not judged by a respirometer, but by the concentration of the -COOH group in the stock, since the biological destruction of the surfactant at the first stages produces organic acids. In the waste water after biodegradation of the product with 0.05% sebacic acid after 6 hours of biodegradation, the concentration of the COOH group increases by a factor of 15.

As a result of the 6-hour biodegradation of the product without a stimulator, the concentration of the -COOH group in the stock does not change. The concentration of the -COOH group is determined by IR spectroscopy.

The relative concentration of -COOH groups in stock during the biodegradation of the disodium salt of monoesters of sulphate-succinic acid and oxyalkylated alcohols with and without added sebacic acid is presented in Table 1.

Table t

Group concentrations

Duration-COOH in runoff,% biodegradation The concentration of-COOH groups is measured by the intensity of absorption in an IRS of 0-1730 cm, in accordance with the intensity absorber adopted on a conventional scale. 1bands C 0-1730.

The data on biodegradation of disodium salt of monoesters of sulfonic succinic acid and oxyalkylated alcohols with the addition of sebacic acid and without it are presented

to

in table.2.

table 2

Concentration of sebum Removal of stocinic acid in the process as a part of surfactant, in% of purification,% of isotropy of surfactant

20

25

Product without seb30

56 + 6 new acid

Thus, as can be seen from Table 2, the implementation of biodegradation with activated sludge using an additive of sebacic acid in an amount of 0.020.05% of the mass of the substance allows the degree of removal of surfactants from the effluent to be established by current standards.

The proposed method allows to significantly simplify the biota I decomposition technology by eliminating the need to create a local installation.

Claims (1)

METHOD OF BIOLOGICAL DECOMPOSITION OF DISINDRATE SALT OF MONOESTERS OF SULFAN ACID ACID AND OXYALKILIZED ALCOHOLS IN WASTE WATERS; acid in an amount of 0.02-0.05% by weight of the disodium salt of monoesters of sulfosuccinic acid and hydroxyalkylated alcohols. ί 1142456