RU2116261C1 - Antiseptic agent for treatment of water - Google Patents

Abstract

FIELD: various industries. SUBSTANCE: present invention describes use of antiseptic agents for treatment of water during its long storage. Antiseptic agent in mineral shungite III. The claimed antiseptic agent is capable of effectively suppressing growth of pathogenic microflora. EFFECT: improved properties of the antiseptic agent. 1 tbl

Description

 The invention relates to antiseptic agents for treating water during its long-term storage and can be used in various sectors of the national economy.

 It is known to use silver and its alloys as an antiseptic for treating water during its long-term storage (as.with. N 586129, class C 02 B 3/06).

 The disadvantage of this tool is its high cost and high toxicity of the resulting water.

 It is known the use of the mineral of flint as an antiseptic agent for water treatment (and.with. N 1791396, class C 02 F 1/50, 1/60), which is accepted as a prototype.

 The disadvantage of this tool is a long time (more than 2-3 days) to achieve an antiseptic effect, as well as higher toxicity of the resulting water.

 The essence of the invention consists in the use of the mineral shungite III as an antiseptic agent for treating water.

 The problem solved by this invention is the creation of a fairly cheap and effective antiseptic for water treatment.

 The technical result achieved in this case is that shungite III has a complex mineral composition, including quartz, aluminosilicates, carbon. Its presence leads to a decrease in the alkalinity of water and a shift in pH to the neutral acid region. Under these conditions, the growth of pathogenic microflora stops.

 The invention is illustrated by the following example.

 Water samples were prepared by adding to the dechlorinated (by settling for 3 days) water a certain amount of wastewater. Equal in weight 10 ± 0.5 g of the amount of crushed minerals were placed in flasks with artificially contaminated water: Belarusian opal-shaped black flint (Bereza deposit), gray porcelain flint (Pikalevo deposit) and shungite III (Zazhogino deposit). All minerals had a fraction size of 3-5 mm. As a control, the same sample of artificially contaminated water was used, but without a mineral.

 In the samples, the values of the coli index and OMC were determined (according to GOST 18963-73), as well as the values of the toxicity index in the bio-test with ciliates according to the method developed by A.N. Krainyukova.

 The table presents data comparing the magnitude and time to achieve the antiseptic effect on water samples artificially infected with microflora.

 The table shows that in the case of treatment of the source of infected water with shungite III, the degree of antibacterial (antiseptic) effect is much higher, and the time it takes to achieve it is much shorter than in the case of the prototype. In addition, the water obtained with shungite III is less toxic than that obtained with flint (the toxicity index has the least value for water with shungite III).

Claims (1)

 The use of shungite III mineral as an antiseptic agent for water treatment.

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