RU179657U1 - DEVICE FOR BIOFILM BIOPHENISM IN LIGHTING OF PIPELINES AND EXPOSURE OF DISINFECTANTS TO BIOFILMS IN FLOW SYSTEMS - Google Patents

Abstract

The utility model relates to modern devices for studying biofilms, is intended for microscopic (visual) studies of the life cycle of biofilms formed by various communities of microorganisms on various materials and in different environments under the controlled influence of temperature, lighting, the speed of movement of the liquid medium, the composition of the gas phase. to study the process of the effect of disinfectants on biofilms in flow systems, including an open or closed tank, nenny piping system circulation pump, a system of insulated pipes and two taps stopcock.

Description

The utility model relates to modern instruments for studying biofilms, is intended for microscopic (visual) studies of the life cycle of biofilms formed by various communities of microorganisms on various materials and in different environments under the controlled influence of temperature, lighting, the speed of movement of the liquid medium, and the composition of the gas phase.

The invention is known which relates to a method for determining and controlling inorganic and organic deposits in an aqueous system, preferably in a circulation system of a paper and / or paper machine. The method consists in the fact that one or more samples are introduced into the water system and, after a predetermined exposure time, is removed from the system. Then the samples are prepared for surface research. Deposits formed on the samples are determined by microscopy and / or gas chromatography and / or mass spectroscopy. In this case, the sample (s) are placed in tanks, containers for additives, water spraying places, or in all moist places or places with high humidity of the studied water system. The technical result achieved in this case is to increase the reliability of information about the state of the investigated system. [RF patent 2372400]

The disadvantage of the analogue is the limited use of the device and the inability to use in relation to the flow circulation system, the described method involves submersible structures for biofouling.

The closest in technical essence and the achieved result is a device that includes a container, equipped with a spring-like device made of soft wire twisted in the form of 10 turns, at an angle of at least 10-12 ° to the vertical axis, with a diameter of 17 mm. The spring-like device has two shoulders with a length of 70 mm for placement inside the container and its removal from it, the device is configured to be installed between turns of coverslips with a size of 20 × 20 × 0.6 mm. The method includes creating biofilms on coverslips. The coverslips are placed between the turns of the spring-like device inside the container. The container is filled with experimental medium, a suspension of cholera vibrios is added to the container and incubated at a final concentration of cholera vibrios in n × 108 CFU / ml with a minimum sensitivity threshold of 0.1 CFU / ml at room temperature. [RF patent 2559546]

The disadvantage of the analogue is the limited use of the device and the inability to use in relation to the flow circulation system, the inability to separate biomass for conducting a parallel comparative experiment.

The objective of the utility model is to develop a device with a more advanced design, with the possibility of using biomass separation in parallel flow experiments to conduct parallel comparative experiments, without immersing the structures in biofouling containers.

The stated technical problem is solved in a utility model, including an open or closed tank, connected by a piping system, a circulation pump, a system of pipelines insulated by two valves and a shut-off valve.

The technical result is the creation of conditions for artificial biofouling in the lumen of pipelines with the subsequent study of the effect of disinfectants on biofilms.

A device for cultivating and studying the biofouling process in a flowing circulation system is intended for microscopic (visual) studies of the life cycle of biofilms formed by various communities of microorganisms on various materials and in different environments under the controlled influence of temperature, lighting, velocity of the liquid medium, the composition of the gas phase, as well as studying the effect of disinfectants on the destruction of the surface layer of biofilms.

The utility model is illustrated in the drawing.

In FIG. 1 - a device for studying the process of the effect of disinfectants on biofilms in flowing systems.

The device includes an open or closed tank 1, a piping system 2, a circulation pump 3, a system of pipelines 4 isolated by two taps, a shut-off valve 5.

The device operates as follows, in an open or closed tank 1, an aqueous solution is poured, which through infection through the air mass or through artificial infection, through a piping system 2, through a circulation pump 3 is fed into a piping system 4, while, if necessary, each of the pipelines can be shut off and removed from the system, while it is possible to treat with a disinfectant solution at different stages of the life of the biofilm formed, while, if necessary, an aqueous solution the thief can be overclocked through the system piping at the open stopcock 5, in order to avoid a complete blockage of the lumen of the piping.

Claims (1)

A device for biofilm biofilm in the lumen of pipelines and the effect of disinfectants on biofilms in flowing circulating systems, including a tank, characterized in that it is equipped with a system of pipelines isolated by two and connected to the tank by a piping system having a circulation pump and a shut-off valve, while the system is isolated two piping taps installed on the pipelines of a system having a circulation pump and a shut-off valve, and communicated with it with the possibility of closing each pipeline isolated by two taps and removing it from the system for subsequent study of the effect of the disinfectant on biofilms.

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