RU2666909C1 - Portable kit for microbiological analysis of water media - Google Patents

Abstract

FIELD: biotechnology.SUBSTANCE: portable kit for microbiological analysis of water media is proposed. The portable kit includes a water intake and supply unit, a sorption filtration unit and a microbiological analysis unit. The sorption filtration unit is a flat-membrane filter holder. The microbiological analysis unit is a carrier of the nutrient medium necessary for the growth of bacterial colonies, and is arranged to accommodate a microfiltration polymer membrane with a pore size of 0.45 mcm.EFFECT: reducing the duration of assembly of the kit in the working condition, increasing its mobility, high efficiency of microbiological analysis in a shorter time.3 cl, 1 dwg

Description

The invention relates to installations for conducting microbiological analysis of water from various sources, especially of natural origin, and can find wide application in the food industry (winemaking, brewing), water treatment systems, and pharmaceuticals.

One of the serious environmental problems is the problem of biological invasion. The problem is especially relevant in connection with an increase in the incidence of infectious bacterial diseases and an increase in the number of resistant strains of pathogenic bacteria. Representatives of almost all systematic and physiological groups of bacteria that are found in soil, air, plants and animals are present in water bodies. Traditional microbiological research is laborious and, moreover, can only be carried out in specialized institutions. Given the above, the microbiological analysis of aqueous media in natural sources, especially surface water bodies, poses the practical task of creating a portable installation for detecting bacteriological hazards in them.

Filtration is a mandatory operation in the analysis of natural waters, with special attention in modern scientific literature on sorption on membrane filters ("Sorption on membrane filters" Chemistry Handbook 21, 2015, chem21. Info).

In order to solve the above problems in filtering technologies, detection using pathogenic bacteria is quite widespread using vacuum.

A known device brand PVF-47 according to patent application RU 2006100618, publ. July 20, 2006. A well-known technical solution relates to filtering technique by creating a vacuum during liquid filtration and can be used in laboratory conditions. The known installation contains a vacuum pump, open funnels into which the test liquids are poured. A filter membrane is installed in the lower detachable part of each funnel. The funnel is connected to the vacuum pump through a pipe located below the filter membrane and a flexible hose. Under the influence of the vacuum created by the pump, the test liquid, in particular water, is filtered through a membrane. A disadvantage of the known technical solution is the possibility of microorganisms entering the test liquid from the external environment; low filtering performance; the need for a source of electricity; significant mass of the installation, which generally reduces the mobility of the installation and makes it practically impossible to use it in the field.

For filtration, analysis and purification of aqueous media in the microbiological and biochemical industries, microfiltration membranes and various devices for purification and sorption with their use are widely used.

Known microfiltration polyamide membrane with a narrow pore size distribution used for the above purposes, according to patent RU 2161530 (publ. 10.01.2001). However, the lack of structural development involving the use of the known microfiltration membrane in the device makes it impossible to achieve the technical result indicated below.

A device for the preparation of water samples according to the copyright certificate of the USSR 1370493, publ. 01/30/1988, "Device for the preparation of a water sample." The known device comprises a housing with a threaded pipe and a removable plug, a cover with an additional threaded pipe, a removable plug and a sealing washer. A porous gasket with a membrane filter is installed in the housing socket. To take a water sample, the device by means of an additional pipe is connected to the threaded pipe of the water supply network. Then the second plug is unscrewed from the threaded pipe of the housing and the pipe is connected to the measuring vessel. Next, the test water is passed through the device. A disadvantage of the known device for preparing a water sample is its low mobility and the inability to use it to take water samples from open reservoirs and wells. In addition, the known device provides water sampling and filtering only under pressure from the water supply network, which further reduces the mobility of the installation.

The closest in technical solution and the achieved result is a device according to the patent for invention RU 2200308, publ. 03/10/2003, "Device for the preparation of water samples", intended for bacteriological and helminthological studies. The device for preparing water samples contains a cylindrical body, a cover, a filter, while the cover is equipped with an additional antimicrobial filter and a fitting for supplying compressed gas. The design of the technical solution of the prototype eliminates the ingestion of any microorganisms with compressed air entering the cylindrical body.

The disadvantages of the technical solution of the prototype are the technological complexity of the installation, providing for the supply of compressed air; significant mass of the plant, reducing its mobility and field use.

The essence of the invention is as follows.

The technical problem to which the claimed technical solution is directed is the development of structural units of the installation for conducting microbiological analysis of water on polymer membranes mainly in the field.

The technical result of the claimed invention is to reduce the duration of the installation of the installation in working condition with high efficiency of microbiological analysis, reducing the time of microbiological analysis, increasing its mobility.

The technical result is achieved by including in the portable kit for microbiological analysis of aqueous media in natural sources a water intake and supply unit, connecting communications with a sorption filtration unit, while the sorption filtration unit is a flat-membrane type filter holder equipped with a microfiltration polymer membrane with a pore size of 0 , 45 microns, providing performance with distilled water of 45-55 ml / cm ^2, a microbiological analysis assembly is a container in Luciano nutrient medium required for growth of the bacteria colonies for further analysis of the growth of bacteria colonies. In the particular case of the implementation of a portable installation for microbiological analysis of water, the microbiological analysis unit represents a cardboard substrate saturated with a nutrient medium. In another particular case, a portable installation for microbiological analysis of water, the microbiological analysis unit is an indicator plate.

Additional studies conducted by the applicant showed that microfiltration polymer membranes with desired properties provide a mechanism for sorption of pathogenic bacteria with the possibility of washing them out for subsequent analysis.

A portable kit for conducting microbiological analysis of aqueous media is presented in the drawing, where

1 - node intake and water supply;

2 - communications;

3 - flat-type filter holder;

4 - microfiltration membrane;

5 - node microbiological analysis.

A portable kit for microbiological analysis of aqueous media works as follows.

A water sample, presumably containing pathogenic bacteria to be analyzed, is supplied by means of a water intake and supply unit 1 connected by communications 2 to a microfiltration polymer membrane fixed to a flat-chamber type 3 filter holder 4. After passing a predetermined volume of water intended for subsequent analysis (usually 350-500 ml), microfiltration polymer membrane 4 is placed in the microbiological analysis unit 5 for subsequent analysis of colony growth (mainly Ecoli).

To implement the invention, the following materials, substances and devices can be used:

- as a unit for the intake and supply of water, depending on the configuration of the installation, manual, diaphragm, piston pumps, as well as discharge electric pumps;

- microfiltration polymer membranes with a pore size of 0.45 μm with a capacity of 45-55 ml / cm ² for distilled water, in particular polyamide microfilaration membranes based on hexamethylene adamide, caprolactam or mixtures thereof, as well as cellulose acetate, nitrocellulose membranes;

- culture media traditionally used for bacteriological analysis (1-1.5% agar) at an ambient temperature of 37 ° C, cardboard substrates saturated with culture medium, as well as Koli-SIB test plates developed and manufactured by SINTELEC LLC .

The undoubted advantage of the claimed kit is its ability to quickly disassemble and assemble into individual components and parts, which makes it easy to move and use in a variety of field conditions.

In the idle (disassembled) state, the portable set is a set of nodes that fits into a case made of impact-resistant material, representing a complete set of modern filtration and analytical equipment for microbiological analysis of various aqueous media.

Claims (3)

1. A portable set for microbiological analysis of aqueous media in natural sources, including a water intake and supply unit connected by communications to a sorption filtration unit, characterized in that the sorption filtration unit is a flat-membrane type filter holder, the kit further comprises a microbiological analysis unit configured to accommodate microfiltration polymer membrane with a pore size of 0.45 μm, providing a productivity of distilled water of 45-55 ml / cm ² and pre which is a carrier of the nutrient medium necessary for the growth of bacterial colonies for subsequent analysis of their growth. 2. A portable set for microbiological analysis of aqueous media in natural sources according to claim 1, characterized in that the microbiological analysis unit includes a cardboard substrate saturated with a nutrient medium. 3. A portable set for microbiological analysis of aqueous media in natural sources according to claim 1, characterized in that the microbiological analysis unit represents an indicator plate.

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