UA24380U - Method for aerosol disinfection of premises - Google Patents

Abstract

The method for the aerosol disinfection of the premises comprises the production of anolyte and catholyte of the alkaline metal in the anode and cathode areas of the diaphragm of the electrolytic cell and the successive treatment of the object with the solutions obtained by spraying. The aqueous colloid solution of the nanoparticles of silver and copper is obtained in the reactor containing the granules of copper and silver and the electrodes: anode and cathode. Then the colloid solution of the nanoparticles of silver and copper is mixed with anolyte and catholyte.

Description

Description of the invention

The useful model belongs to the field of ecology, medicine, veterinary medicine, microbiology and can be used in various spheres of human activity: health care, agriculture, food and processing industry, transport, urban economy, for disinfection of baths, saunas, cosmetic offices, almost everywhere, where biological protection of people and the environment is needed without the use of chemicals.

Known chemical disinfection methods based on the use of traditional biocidal chemicals 70 (formaldehyde, alkaline glutaraldehyde, di- and trichlorocyanuric acid salts, quaternary ammonium bases, peracetic acid, hydrogen peroxide, ozone, phenolic, cresol, iodoform solutions, steam antiseptics, etc. .). (Aut. Svid. USSR Mo365150 A, 08.01.73. Aut. Svid. USSR Mo337131 A, 05.05.72.

The disadvantage of chemical methods of disinfecting premises is the contamination of treated objects with residual toxic substances, which are equally harmful to all forms of protein life - from bacteria to humans, the removal of which requires additional measures.

There are known methods of treatment (disinfection), in which an aqueous salt solution processed in the anode zone of a diaphragm electrolyzer (anolyte) is used as a disinfectant (Aut. Svid. USSR Mo1341743, Aut.

Evidence USSR Mo1437400, Author. Evidence USSR Mo1534772, Author. Evidence USSR Mo16778911.

The disadvantages of the above methods are low efficiency and degree of reliability when disinfecting hard-to-reach places, significant consumption of disinfectant (anolyte) and limited areas of use of the methods.

A known method of disinfecting premises | see Russian patent Mo2148414. method of disinfection of premises. IPC7

Ab112/00, Ab6112/22. Publ. 10.05.2000), which includes filling the room with an aerosol obtained by spraying a disinfectant substance, as a neutral anolyte with a pH of 7.0...8.2, obtained using sequential treatment of an alkali metal chloride solution in the anodic and cathodic chambers of the diaphragm of an electrochemical cell while maintaining the volumetric flow rate through the anode chamber at the level of pt") 0.999...0.5 of the volumetric flow rate through the cathode chamber. Spraying is carried out by mechanical crushing of the neutral anolyte, without mixing it with air until the dispersion of the aerosol is 5...50 μm, and the spraying is carried out no later than 30 minutes after obtaining the neutral anolyte, and a sodium chloride solution with a concentration of 0.5...5.Og is used /liter, while spraying is carried out under normal climatic conditions in the mode of aerosol mass concentration of 50...100mg/m3. (se)

The main disadvantages of this method are a narrow range of pH values and the redox potential of the used solutions, a small degree of dispersion of the aerosol, a long exposure time (30 minutes), reduced environmental cleanliness after processing the objects, primarily due to the lack of a compensatory processing cycle, CHI smoothing and softening action of active oxidants, for example, additional treatment with catholyte, which reduces the effectiveness of the method when acting on various groups of microorganisms. see

The closest to the proposed one is the method of disinfection of premises (see Russian patent Mo2241491. method of azrosol antimicrobial treatment. MPK7 Ab112/03, A6E112/22, Ab611 9/14. Publ. 2004.12.10), which includes obtaining anolyte and catholyte of alkali metal in anode and cathode zones of the diaphragm electrolyzer and "sequential, one solution after another, treatment of objects by spraying the obtained solutions with a mass concentration of 79 aerosol within the range of 5..700 mg/m? with an aerosol dispersion of 2.0...100 μm, and the temperature of the aerosol must be higher than the temperature of the object being treated, while the speed of the aerosol particles "z" must be at least 100 m/s, while each solution must be used for processing no later than 20 minutes after receiving it in the diaphragm electrolyzer and processing should be carried out within 40 45: MIN. 7 The disadvantage of this method is its low efficiency when processing objects in the microflora of which there is a wide range of microorganisms. - The basis of a useful model is the task of increasing the effectiveness of disinfection when processing objects in the microflora of which a wide range of microorganisms is present.

The proposed, as well as the known method of aerosol disinfection of premises, includes obtaining an anolyte and co-catholite of an alkali metal in the anode and cathode zones of a diaphragm electrolyzer and successive, one solution after another, treatment of objects by spraying the obtained solutions with a mass concentration of aerosol within 5 . a colloidal solution of silver and copper nanoparticles with an anolyte and catholyte with a dispersion of silver and copper nanoparticles in the colloidal solution of 10...100O0nm, while a colloidal solution with silver and copper nanoparticles taken from the near-cathode zone of the reactor is mixed with the anolyte, and a colloidal solution is mixed with the catholyte a nanoparticle of silver and copper taken from the anode zone of the reactor, and the electrodes are made of silver or copper.

Obtaining an aqueous colloidal solution of silver and copper nanoparticles in a reactor containing copper granules and 60 silver and electrodes - anode and cathode, allows you to obtain an additional environmentally friendly and extremely effective active factor for disinfection of premises as part of an aerosol, which allows you to significantly reduce the use of active chlorine The use of two metals - silver and copper - is based on the synergistic effect of these metals, which enhance the bactericidal properties of each other.

Mixing a colloidal solution of silver and copper nanoparticles with anolyte and catholyte allows you to obtain the final 65 bactericidal product with high activity, which spreads over a wide range of microorganisms, which allows you to effectively suppress microflora of various etiologies (bacterial, viral, fungal).

The dispersion of silver and copper nanoparticles in a colloidal solution of 10..1000 nm is due to the fact that the most bactericidally active metal particles are of small size. The size of more than 1O0nm exceeds the ionic size of the drug particles, which makes it less toxic. Exceeding the size of 100 Ohm is impractical, since the dispersion of the aerosol requires that the nanoparticles be smaller than the smallest liquid droplets in the sprayed aerosol.

Mixing with the anolyte a colloidal solution of silver and copper nanoparticles taken from the near-cathode zone of the reactor, and mixing with the catholyte a colloidal solution of silver and copper nanoparticles taken from the near-anode zone of the reactor, makes it possible to ensure the ecological cleanliness of the treatment method, since the degree of activity of aerosol biocidal agents is compensated for, for example , aerosol micelles containing chlorine or hydrogen. 70 Making electrodes from silver or copper ensures environmental cleanliness of the method.

The drawing shows the scheme of the device for implementing the proposed method.

The device contains a diaphragm electrolyzer 1 with nozzles 2 and 3, a diaphragm 4 and electrodes 5 and 6; reactor 7 with nozzles 8 and 9, anode electrodes 10 and cathode 11, with copper and silver granules 12; power supply and control unit 13, the first outputs 18, 19 of which are connected to electrodes 5, there is a diaphragm electrolyzer 1, the second outputs 20, 21 are connected to the liquid atomizer 17, the third outputs 22, 23 are connected to the electrodes of the reactor 7 - the anode 10 and the cathode 11, and inputs 24, 25 are connected to the industrial power supply network; the first mixer 14 and the second mixer 15 are connected to the container 16, which contains the atomized liquid, and is connected to the liquid sprayer 17. At the same time, the mixers 14 and 15 are connected to the outlet nozzles 8 and 9 of the reactor by the first inputs 7, and the second inputs are connected to the output nozzles 2 and Z of the diaphragm electrolyzer 1.

The method of aerosol disinfection of premises is carried out as follows. In reactor 7, an aqueous colloidal solution of silver and copper nanoparticles is obtained. Anolyte and catholyte are obtained in the diaphragm electrolyzer 1, respectively, in the anode zone and in the cathode zone. Electrodes 10 and 11 of reactor 7 receive electric current pulses from outputs 22, 23 of the power supply and control unit 13. In reactor 7, under the action of electric current pulses, granules 12 of silver and copper are dispersed and an aqueous colloidal solution of metal nanoparticles is formed.

The concentration of silver and copper nanoparticles in the liquid is determined by the energy of the current pulses coming from block 13, so the concentration of the colloidal solution is easy to control. On electrodes 5 and 6 of the diaphragm electrolyzer 1 o, electric current flows from outputs 18, 19 of the power supply and control unit 13, as a result of which anolyte and catholyte are formed in the zones of anode 6 and cathode 5. Electrochemically activated anolytes have a universal spectrum of action, that is, they have a detrimental effect on groups of microorganisms (bacteria, viruses, fungi, protozoa), without causing o

At the same time, it harms the cells of human tissues and other higher organisms, that is, somatic animal cells as part of a multicellular system, see "Electrochemical activation - water purification and obtaining useful solutions" edited by V.M. Bakhira, VNIYIMT, 2001, pp. 85-86). In mixers 14 and 15, solutions of anolyte and catholyte are mixed with an aqueous colloidal solution of silver and copper nanoparticles. Anolyte and catholyte solutions mixed with a colloidal solution of silver and copper nanoparticles have even greater bactericidal activity. Mixed "

The solutions enter the tank 16, which contains the liquid to be sprayed, and is connected to the liquid atomizer 17. c

Control of the liquid atomizer 17 is carried out from the outputs 20, 21 of the power supply and control unit 13. In the process of atomization, the high speed of the aerosol particles ensures rapid filling of the processed space.

At the same time, the local weakening of the shells of microorganisms is carried out, and due to the physical and chemical action of biocidal agents of the aerosol, the complete destruction of microorganisms is carried out and, therefore, complete disinfection of the premises. The dispersion of the aerosol is selected within 2.0...100 μm, which allows to have silver and copper nanoparticles in almost every droplet of the aerosol, which the aerosol easily carries to the most difficult-to-reach places of the premises. This is also facilitated by the value of the aerosol mass concentration of 5...700mg/m Z. The use of catholyte with "" particles of copper and silver consecutively after the use of anolyte with particles of copper and silver makes it possible to restore the natural environment with a neutral pH much faster due to the compensatory interaction of the anolyte and catholyte. This is facilitated by the mixing in mixers 14 and 15 with the anolyte of the colloidal solution of silver and copper nanoparticles taken from the near-cathode zone 11 of reactor 7, and the mixing with the catholyte of the colloidal solution of silver and copper nanoparticles taken from the near-anode zone 10 of reactor 7. The high biocidal activity of anolyte aerosols with a colloidal solution of silver and copper nanoparticles is due to the high antibacterial and antiviral activity of silver. Copper, as a metal of synergistic action, enhances the activity of silver and the analyte. The bactericidal effect of the use of silver significantly exceeds the effect of chlorine, because chlorinated lime, hypochlorites of sodium and calcium At the same time, silver and copper are not toxic to humans and harmless to the treated surfaces. Colloidal solutions of copper and silver have antibacterial, antiviral and antifungal properties. For example, the spectrum of antimicrobial action of silver includes more than 650 types of microorganisms (see Kulsky L.A. Intensification of water disinfection processes. 1978, 98p.

Thus, the proposed method increases the efficiency of biological processing of objects while simultaneously increasing the degree of environmental cleanliness during processing and significantly expanding the functional capabilities of the method. The use of this method provides the function of flexible response to emerging threats of the appearance of previously unknown microorganisms with the establishment of corresponding higher or lower values of the concentration of silver and copper nanoparticles when receiving electrochemically activated solutions.

Claims (4)

The formula of the invention 1. The method of aerosol disinfection of premises, which includes obtaining anolyte and catholyte of an alkali metal in the b5 anode and cathode zones of a diaphragm electrolyzer and successive, one solution after another, treatment of objects by spraying the obtained solutions with an aerosol mass concentration within 5...700 mg/m З with an aerosol dispersion of 2.0...100 μm, which differs in that an aqueous colloidal solution of silver and copper nanoparticles is additionally obtained in a reactor containing copper and silver granules and electrodes - anode and cathode, and the colloidal solution is mixed silver and copper nanoparticles with anolyte and catholyte. 2. The method of aerosol disinfection of premises according to claim 1, which differs in that a colloidal solution of silver and copper nanoparticles taken from the near-cathode zone of the reactor is mixed with the anolyte, and a colloidal solution of silver and copper nanoparticles taken from the near-anode zone of the reactor is mixed with the catholyte. 3. The method of aerosol disinfection of premises according to claims 1, 2, which differs in that the electrodes are made of silver or copper. 70 4. The method of aerosol disinfection of premises according to claims 1, 2, Z, which differs in that the dispersion of silver and copper nanoparticles in the colloidal solution is 10...1000 nm. - «c) (ee) (ze) « s - s - y? име) sh» (95) Ge» SHYN (42) s 60 b5