SU1390190A1 - Method of suppressing biological growth in process water supply systems - Google Patents

Abstract

The invention relates to the purification from biological fouling of structures, pipelines and heat exchangers of technical water supply systems, mainly circulating and closed water systems of abandoned enterprises, by adding chemical reagents, and allows increasing the degree of suppression of the viability of biofouling. In the pre-burned method, a copper-containing melt of dicarboxylic acids is used as a biocide reagent - one stripped off of the bottom residue of adipic acid production, preferably in an amount of 0.2-0.3 g / l. The method allows to increase the efficiency of bactericidal and algaecidal action up to 99.9%. 1 hp f-ly, 1 tab. with S (L

Description

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The invention relates to methods for purifying biological fouling of structures, pipelines and heat exchangers of technical water supply systems, mainly circulating and closed water systems of industrial enterprises, by adding chemical reagents to the water.

The aim of the invention is to increase the degree of inhibition.

Example 1 To assess the bactericidal effect, technical water is used, containing 0.5–5–10 microbial cells per liter of water. The microflora includes filamentous bacteria of the genera Leptothrix, Cladothrix, aerobic bacteria Pseudomonas, Bacillus and others, as well as sulphate-reducing bacteria,

10 ml of source water is poured into the tube, and the solutions of the proposed biocide reagent — molten dicarboxylic acids — one stripped off bottoms of adipic acid containing adipic, glutaric, succinic acid, copper compounds and vanadium are added to them into the water to 0.2–0 , 3 g / l. After 5 hours of exposure, 1 mp of each sample is sown on MPA and allowed to incubate for 48 hours at 27 ° C. Then the number of microorganisms is determined by the method of counting colonies.

In parallel, the treatment is carried out by a known method using 9 as a reagent-biocide mixture of phenolic water and copper sulfate.

The efficiency of bactericidal action by a known method is 89.3%, according to the proposed 98.8-99.7%.

The results obtained are tabulated.

The anti-scale effect of molten dicarboxylic acids already at a concentration of 0.1 g / l reaches 100%, which is due to the inhibitory effect of organic acids. Known reagent does not possess anti-scale action. This combination of the properties of the floating dicarboxylic acid allows it to be used as a universal inhibitor, which suppresses fouling and prevents salt deposits in water supply systems.

Technical and economic efficiency of the proposed method for comp.

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However, it is known that it allows reliable operation of the equipment of technical water supply systems with effective suppression of the viability of biofouling.

The method can be applied in recycling water supply systems of industrial enterprises and thermal power plants, which are supplied with fresh water from fresh water sources.

Example 2. The algaecidal activity of substances is assessed by their effect on the oxygen productivity of the knolls. For this purpose, samples of algae are taken from the circulating water supply system of the pipe-cutting shop. Cladophora glomerate is the dominant fouling form.

1 g of biomass of algae is placed on Wednesday 4у-10 in oxygen bottles and added redactant biocide to a concentration of 0.1-0.3 g / l and placed in luminostat. After 5 hours, the bottles were used to determine oxygen by the iodometric method of t-ing (according to Winkler). By comparing the amount of oxygen given, the effectiveness of the algaecidal action of the reagents is assessed, which for the proposed method is 9% and for the known 31.7%.

From the data of examples 1 and 2 it follows that the proposed reagent effectively suppresses the viability of biorbrastation, which makes it possible to reliably operate the equipment of technical water supply systems.

Claims (2)

1. A method for suppressing biological fouling in technical water supply systems by treating with a copper-containing biocide reagent, characterized in that in order to increase the degree of suppression, a melt of dicarboxylic acids is used as a copper-containing biocide reagent - one stripped off bottom residue of adipic acid production. 2. Method pop 1, which differs from the fact that the copper-containing biocide reagent is introduced in an amount of 0.2-0.3 g / l. Complex reagent known) 0,2 89,391,7 10,6