SK50172008A3 - Ecologically harmless disinfection agent - Google Patents

Abstract

Eco friendly disinfectantis a product of the electrophysical decomposition of the sodium chloride water solution and in the mass it contains 0.01 to 0.1 % of the active chlorine, 0.0001 to 0.0003 % chlorine dioxide, 0.1 to 0.2 % sodium chloride and the rest is water, its oxidation-reduction potential is between 600 and 1200 mVand the pH value is between 2 and 11. Source of the active chlorine is hypochlorous acid, sodium hypochlorite or molecular chlorine either individually or in the compounds.This disinfectant can contain trace amounts of oxidizing agents such as hydrogen peroxide, ozone, oxygen.

Description

The invention relates to an environmentally friendly disinfectant having a wide range of applications.

BACKGROUND OF THE INVENTION

Disinfectants known to date are manufactured chemically and, in addition to high levels of active chromium, usually contain other toxic chemical compounds such as sodium hydroxide, ethanol, isopropanol, ammonium chloride, dichloroisocyanurate and the like; they are either strongly alkaline (pH above 10) or strongly acidic (pH 2-6). Personal protective equipment must be worn when working with such substances. Their vapors are harmful to health, if a large amount of such products is leaked, water and soil are contaminated, and they pollute the environment. They usually contain 1 to 5 wt. active chlorine form molecular chlorine, hypochlorous acid, hypochlorite ions or chloramines, which are highly aggressive, harmful to health.

Tablets containing active chlorine, which dissolve in water, are also used for disinfection.

There has been an attempt to produce disinfectants with a lower content of harmful substances in an environmentally friendly manner by electrolysis of sodium chloride solution. The disinfectants produced in this way contain a mixture of chlorine-based oxidants, but are very unstable, suitable only for immediate use at the production site, and cannot be stored.

SUMMARY OF THE INVENTION The object of the present invention is to provide a disinfectant having a strong disinfectant effect which is environmentally friendly, sufficiently stable with a wide range of uses.

SUMMARY OF THE INVENTION

The above criteria fully meet the disinfectant composition of the present invention, which is characterized in that it is the product of electrophysical decomposition of aqueous sodium chloride solution and contains 0.01 to 0.1 wt. % active chlorine, 0.0001 to 0.0003 wt. % chlorine dioxide, 0.1 to 0.2 wt. sodium chloride and the remainder being water, its oxidation-reduction potential being in the range of 600 to 1200 m V and pH of 2 to 11.

In such a preparation, the active chlorine is either in the form of molecular chlorine, hypochlorous acid or sodium hypochlorite, or in mixtures thereof. In acidic environments, molecular chlorine predominates, at pH values of 5 to 7.49, hypochlorous acid, while at pH 7.5 the ratio of weight concentrations of hypochlorous acid and sodium hypochlorite is 1: 1. At pH values above 7.5, sodium hypochlorite is dominant.

The disinfectant of the present invention may also contain other oxidants such as hydrogen peroxide, ozone, oxygen, depending on the quality and mineral composition of the input water for the preparation of the disinfectant solution and sodium chloride solution. A saturated sodium chloride solution is used to achieve optimal conditions for the manufacture of the disinfectant solution.

The method of making the present disinfectant comprises supplying a saturated aqueous sodium chloride solution to a cathode and anode chamber reactor separated from each other by an ion-permeable membrane, which is exposed to a current of 7 to 20 A and a voltage of 25 to 45 V for 30 seconds. minutes, the disinfectant trapped in the anode chamber is then drained and the waste trapped in the cathode chamber is further recycled or discharged to the recipient.

This production technology is a new special disinfectant production system using only water and sodium chloride. It is a technology of multilayer conversion, based on electro-chemical-physical activation of sodium chloride solution. The basic principle consists in the decomposition of saturated sodium chloride solution in a two-chamber reactor by electrophysical-chemical method into disinfectant and waste. A disinfectant containing highly efficient oxidants - active chlorine, chlorine dioxide, possibly molecular oxygen, ozone, hydrogen peroxide - is trapped in the anode chamber of the reactor.

Waste substances trapped in the cathode chamber should be recycled and returned to the system.

The amount of disinfectant produced per unit of time and its subsequent parameters depend on the size and type of chambers and membranes used.

No chemicals are used in the manufacture of the disinfectant in question except water and sodium chloride. This considerably simplifies the safety of working with such a preparation, the operator comes into contact with safe materials, does not need any protective equipment and is not endangered to health. The technology is energy efficient. 40 l of the preparation consumes only 0.024 kWh of electricity, the consumption of feedstocks of water and sodium chloride is low. The product has minimal corrosive effects after application to technological equipment, the possibility of contamination during its escape into the soil is excluded.

The disinfectant produced in this way contains up to 100 times less active chlorine (only 0.01 to 0.1% by weight) in comparison with known formulations, and possible additional oxidants such as hydrogen peroxide, ozone, molecular oxygen are contained only in trace amounts. The product is harmless to health with a shelf life of at least 6 months. It can be stored at room temperature.

The results of the disinfectant efficacy testing showed that the composition of the invention at 1: 1 concentration had a bactericidal effect on gram-negative and gram-positive bacteria after 10 minutes exposure, a fungicidal effect on vegetative forms of fungi at 1: 1 concentration after 10 minutes exposure and a spicidal effect on spores at concentration. 1: 1 after 30 minutes exposure. The preparation has an antiviral effect already after 10 minutes of treatment with a 1: 1 dilution.

The composition of the invention was tested for acute oral toxicity, dermal toxicity, skin irritation and eye irritation. Tests have shown to be non-toxic, harmless from a hygienic-toxicological point of view. Do not irritate skin and conjunctival mucosa of eyes ..

The composition of the present invention is environmentally friendly suitable for wide application.

Overview of the drawings

The invention will be described in more detail with reference to the accompanying drawings, in which: FIG. 1 shows the principle of decomposition of an aqueous solution of sodium chloride in a cathode and anode chamber reactor separated by an ion-permeable membrane, FIG. 2 represents the dependence of the mass fractions w (%) of HOCI and CLO ´ on the pH value

EXAMPLES

Example I.

Production of disinfectant with active chlorine content of 100 mg / l.

The reactor shown in Figure 1, with two chambers, a cathode chamber 1.1 and anode chamber 1.2 separated from each other by an ion-permeable membrane 2, was introduced.

1 of feed water together with a saturated aqueous solution of sodium chloride, which makes up about 10% of the volume of feed water. The solution was exposed to a current of 7 A and a voltage of 25 V for 30 min. The membrane 2 transmits only the ions and, as a result, the electro-physicochemical decomposition and fragmentation of the saline solution results in an effective disinfectant. The disinfectant that is collected in the anode chamber 1.2 and then drained. The waste trapped in the cathode chamber 1.1 was further recycled. If necessary, it can be released into the recipient.

The pH of the resulting disinfectant product was 7, the oxidation-reduction potential was 750 mV.

Example 2

Production of disinfectant with an active chlorine content of 300 mg / l.

The procedure was similar to Example 1 except that the sodium chloride solution was exposed to a current of 9.5 A and a voltage of 28 V.

The pH of the resulting disinfectant product was 7, the oxidation-reduction potential was 800 mV.

Example 3

Production of disinfectant with active chlorine content of 500 mg / l.

The procedure was similar to that of Example 1 except that the sodium chloride solution was exposed to a current of 12 5 A and a voltage of 35 V.

The pH of the resulting disinfectant product was 7, the oxidation-reduction potential was 900 mV.

Example 4

Production of disinfectant with active chlorine content 700 mg / l.

The procedure was similar to Example 1 except that the sodium chloride solution was exposed to an electrical current of 15 A and a voltage of 39 V.

The pH of the resulting disinfectant product was 7, and the oxidation-reduction potential was 950 mV

Example 5

Production of disinfectant with active chlorine content 1000 mg / l.

The procedure was similar to Example 1 except that the sodium chloride solution was exposed to a current of 20 A and a voltage of 45 V.

The pH of the final disinfectant product was 7, the oxidation-reduction potential was 1200 m V,

Example 6

Production of disinfectant with active chlorine content of 500 mg / l.

The procedure was similar to that of Example 1 except that the sodium chloride solution was exposed to an electrical current of 12 5Aanapäti 35 V.

The pH of the resulting disinfectant product was 4, the oxidation-reduction potential was 900 mV.

The specified voltages and currents are valid for particular reactors, they may vary for other reactors.

The active chlorine content of the composition of the invention was determined by a standard method and reached only 0.01 to 0.1% by weight. based on the total weight of the composition. The active chlorine is represented either in the form of molecular chlorine, hypochlorous acid or sodium hypochlorite or in mixtures thereof. From the distribution diagram of the HOCI and CIO 'system of FIG. 2 shows that, in an acidic environment, molecular chlorine predominates, at pH values of 5 to 7.49, hypochlorous acid, and at pH 7.5, the ratio of the mass concentrations of hypochlorous acid and hypochlorite ion, i.e. sodium hypochlorite, is 1: 1. At pH values above 7.5, sodium hypochlorite is dominant.

Depending on the quality and mineral composition of the feed water, the composition of the invention may further contain trace amounts of oxidants such as hydrogen peroxide, ozone, molecular oxygen.

The disinfectant efficacy of the composition of the invention was determined by standardized methods according to Slovak technical standards. Bactericidal activity was determined according to STN EN 1276 on Pseudomonas aeruginosa 168/79 and Staphylococcus aureus 43/60, fungicidal activity was determined according to STN EN 1275 on Candida albicans NCTC 46/94 and sporicidal activity was tested on Bacillus subtilis CNCTC 4 / 42nd The test results showed that the preparation at a 1: 1 solution concentration had a bactericidal effect on Gram-negative and Gram-positive bacteria as early as 10 minutes exposure, fungicidal action on vegetative fungal forms as early as 10 minutes exposure and sporicidal action on spores as early as 30 minutes exposure.

The virininactivating effect of the composition was determined by a method of inactivating DNA of bacteriophage ΦΧ174 whose host strain is Escherichia coli ATCC 13706. The test method is based on the original procedure described in Bydzovska O. Kneiflova J. 1983: Assesment of viral dosinfection by means of bacteriophage. J. Epid. Hyg. Microbe. Immunol. 37, 60-66.

Tests have shown that the composition has a virininactivating effect after 10 minutes of application to a 1: 1 dilution of the solution. The enclosed table shows an overview of the disinfection efficiency of the composition of the invention.

Overview of disinfection efficiency of disinfectant

Strains tested Time exposure bactericidal activity Pseudomonas aeruginosa 168/79 Staphylococcus aureus 43/60 10 min fungicidal activity Candida albicans NCTC 46/94 10 min sporicidal activity Bacillus subtilis CNCTC 4/42 30 min Viruidal activity DNA bacteriophage ΦΧ174 10 min

The composition of the invention was further tested for acute oral toxicity, dermal toxicity, skin irritation and eye irritation. The methods Bltris, B3, B4, B5 (TG 423,402,404,405 OECD) Guideline for Cane of Chemicals were used for testing. Tests have been carried out to maintain the criteria of the Good Laboratory Practice Directive and Directive 2004 / EC of the European Parliament and of the Council of 11 February 2004.

On the basis of the results of acute oral and dermal toxicity and the categorization of EEC hazardous substances issued by the Commission of European companies, the device in question is considered harmless and does not irritate the skin after repeated application and conjunctival mucosa of the eyes after single application.

Industrial use

The disinfectant according to the invention has a wide range of applications in all areas where it is necessary to disinfect materials, environment, tools, tools. It can be used for disinfection at home, in hospitals, in the spa industry, for disinfection of drinking water, disinfection of swimming pools, in plant and livestock production, in the food industry.

Claims (3)

An environmentally friendly disinfectant, characterized in that it is the product of the electrophysical decomposition of aqueous sodium chloride solution and contains from 0.01 to 0.1% by weight of water. % active chlorine, 0.0001 to 0.0003 wt. % chlorine dioxide, 0.1 to 0.2 wt. sodium chloride and the remainder to the total weight of the product is water, the oxidation reduction potential of the product being in the range of 600 to 1200 m V and pH of 2 to 11. An environmentally friendly disinfectant according to claim 1, characterized in that the active chlorine is hypochlorous acid, sodium hypochlorite or molecular chlorine individually or in a mixture. An environmentally friendly disinfectant according to claims 1 and 2, characterized in that it can contain trace amounts of oxidants such as hydrogen peroxide, ozone, oxygen.