UA95413U - METHOD OF AIR DISINFECTION OF ROOMS AND SURFACES - Google Patents

Abstract

The method of disinfection of the indoor environment and surfaces involves the treatment of the premises by spraying an aqueous colloidal solution of a bactericidal substance containing silver nanoparticles. Spraying is carried out using a cold mist generator, and the active substance of the biocide contains silver nanoparticles recovered from the ionic form of silver by ascorbic acid in an aqueous solution of one of the dispersers based on polycarboxylic acid.

Description

The useful model belongs to the sanitary disinfection of places of constant gathering of people, premises of medical profile, as well as disinfection of objects of sanitary supervision.

Various methods are used for disinfection: wiping, aerosol spraying, soaking, irrigation, etc. Many authors note as the most effective method of aerosol spraying, for example (1). But unfortunately, this method cannot be used for all disinfectants and not under all conditions. According to known data (1), various classes of organic and inorganic compounds are used as disinfectants, such as oxidants and oxygen-containing compounds, chlorine-containing compounds, surfactants, alcohols, aldehydes, superacids, phenols. The use of these classes of disinfectants is associated with several significant circumstances that limit their further use. Yes, most of the known disinfectants have a toxic effect on the human body; their use is associated with the need to strictly observe the rules of individual protection; the aggregate state of such disinfectants determines the complexity and inconvenience of their application technologies; there is almost no prolonged effect from their use.

An aerosol method (|2| of disinfecting livestock and poultry premises is known, where more than 5 different active substances are used in one disinfection cycle: aldehydes, alkalis, quaternary ammonium cationic surfactants, alcohols, halogens, peroxy compounds. In addition, in one cycle of disinfection treatment of premises uses several stages of disinfection, namely washing of premises, wet and aerosol disinfection, as well as bleaching of premises with a prolonged bactericidal effect.

The disadvantage of the proposal, despite the use of the aerosol method, is the complexity of preparing the composition, the use of several methods of antimicrobial treatment of premises, as well as the need to ventilate the premises after treatment.

The method of IZ is known disinfection of premises using nanoparticles of bactericidal metals, which is based on obtaining an aqueous colloidal solution of metal nanoparticles.

Premises are treated by spraying a colloidal solution. In addition, an aqueous colloidal solution of nanoparticles of bactericidal metal oxides, nanoparticles of hydroxides of bactericidal metals and ions of bactericidal metals is used in a mixture with a colloidal solution of metal nanoparticles, and an organic or inorganic acid is introduced in the amount of 0.01-1000 mg/l. The disadvantage of the method is the difficulty of preparing the composition and controlling the parameters.

The use of ions of bactericidal materials and acids complicates and limits the application.

The method |4| is known sanitary treatment of indoor air, which includes the interaction of air with a disinfectant, as such, anolyte with a pH of 6.5-8.0 is used, and the treated air is passed through a layer of anolyte at a temperature of 20-24 "С under a pressure of 13-15 kPa. The disadvantage of the method there is a need to use additional equipment to maintain the required pressure and temperature.

The method closest in technical essence to the proposed method (|5| of aerosol disinfection of premises and agricultural buildings, which includes the treatment of premises by spraying an aqueous colloidal solution of a bactericidal substance, while as an aqueous colloidal solution of a bactericidal substance, a water-based metal-containing preparation "Sumerian silver" is used ", obtained by erosion-explosive dispersion of silver and copper granules in deionized water with the content of components in the following amounts, mg/l: silver nanoparticles 500...5000 copper nanoparticles 500...5000 deionized water the rest.

The disadvantage of this method is the use of expensive and difficult-to-use equipment, the need for preliminary preparation of components before erosion-explosive dispersion.

The basis of a useful model is the task of creating a method of disinfecting the air environment of premises and surfaces using biocide and technical means, with prolongation of the validity period, with an increase in the antibacterial effect.

The task is solved by the fact that in the method of disinfecting the air environment of premises and surfaces, which includes the treatment of premises by spraying an aqueous colloidal solution of a bactericidal substance containing silver nanoparticles, according to a useful model, spraying is carried out using a cold fog generator, and the active substance of the biocide contains silver nanoparticles reduced from the ionic form of silver by ascorbic acid in an aqueous solution of one of the dispersants based on polycarboxylic acid.

The use of a biocide with an active substance in the form of metallic silver nanoparticles at a concentration of silver in the working solution of 10 mg/l allows to inhibit a wide range of microorganisms of bactericidal, viral and fungal origin.

In addition, the use of silver significantly reduces the level of toxicity of antibacterial solutions, which allows them to be used in the presence of people and animals.

The proposed method of recovery of metallic silver nanoparticles from the ionic form of silver with ascorbic acid in an aqueous solution of one of the dispersants based on polycarboxylic acid makes it possible to use a technologically simple and cheap method of obtaining an effective disinfectant.

The use of cold fog generators allows you to obtain an aerosol with a small degree of dispersion of 50-100 microns, which significantly increases the effectiveness of disinfection due to penetration into cities that are inaccessible with other methods of disinfection.

Thus, the proposed method of disinfecting the air environment of premises and surfaces significantly increases the effectiveness of antibacterial treatment of premises. At the same time, the cost of finishing the premises is reduced, the processing time is reduced, and labor costs are reduced.

Sources of information: 1. Volkov Yu.P. Prospects for the development of research in the field of the development of disinfectants. Materials of the scientific conference "Actual problems of disinfection, sterilization, disinsection and deratization". M.: 1992., p. 2. Method of disinfecting livestock and poultry premises. Patent of Ukraine

Mo 3012, IPC (2006) AETI. 2/00, 15.09.2004, Bull. May 9, 2004 - Analog. 3. The method of disinfection of premises using nanoparticles of bactericidal metals

Patent of Ukraine Mo 39393 IPC (2009) AETI 2/00, AETI 2/22, Ab1I 9/14, 25.02.2009, bull. May 4, 2009. - Analog. 4. The method of sanitary treatment of air and the device for these purposes. Patent of Ukraine Mo 5887 IPC (2006.01) IPC (2013.01) AETI. 2/00, AYETI 9/00, 15.04.2004, Bull. May 4/2004. 5. The method of aerosol disinfection of agricultural premises and structures. Patent of Ukraine Me 87598 IPC (2009) AETI. 2/00, AETI. 2/22, AYETI. 9/14, 27.07.2009, Bull. Mo 14.2009 - Prototype.

Claims (1)

USEFUL MODEL FORMULA З The method of disinfecting the air environment of premises and surfaces, which includes the treatment of premises by spraying an aqueous colloidal solution of a bactericidal substance containing silver nanoparticles, which is distinguished by the fact that the spraying is carried out using a cold fog generator, and the active substance of the biocide contains silver nanoparticles, reduced from the ionic form of silver by ascorbic acid in an aqueous solution of one of the dispersants based on polycarboxylic acid.