RU203391U1 - Biological treatment reactor - Google Patents

Abstract

The utility model relates to the field of wastewater treatment and can be used to create a biological treatment reactor, into which the water to be treated is supplied and which contains, as a filtering material, a dense filtering load with a biocenosis of microorganisms. The required technical result, which consists in simplifying the design and in increasing the cleaning efficiency and operational reliability, is achieved in a device containing a body in the form of two coaxial cylinders, between the walls of which a bottom is made, on which a filtering load containing solid porous elements with microchannels is laid, forming an anaerobic a zone with a biocenosis of microorganisms, while the filtering load is a flexible moisture-permeable sleeve made of woven polymer fibers, which is filled with solid porous elements with microchannels, while the sleeve is made in width according to the dimensions of the channel, which is formed by the walls of the cylinders and the bottom, and the ends of the sleeve are made with the possibility tight closure. 7 p.p. f-ly, 2 dwg.

Description

The utility model relates to the field of wastewater treatment and can be used to create a biological treatment reactor, into which the water to be treated is supplied and which contains, as a filtering material, a dense filtering load with a biocenosis of microorganisms.

Known block for biological treatment of domestic wastewater [RU 36657, U1, C02F 3/00, 03/20/2004], containing a container divided into functionally separate containers, placed in one of these containers, a denitrifier having anoxide and anaerobic zones with biocenosis of microorganisms in activated sludge, placed in one of the indicated containers, a nitrifier having an aerobic zone with a biocenosis of microorganisms in the activated sludge, a means for aerating wastewater, a phase separator and a system for recirculating activated sludge from the phase separator to the aerobic zone, moreover, the denitrifier is made with an additional aerobic zone, active The sludge in the anoxide zone of the denitrifier and in the nitrifier is immobilized on a fixed polymer carrier, the anaerobic zone of the denitrifier is made in the form of a sludge collector from the additional aerobic zone, and the activated sludge recirculation system has an outlet to the aerobic zone of the denitrifier.

The disadvantage of this technical solution is its relatively large complexity and relatively low operational reliability caused by the complexity of maintenance, in particular, flushing the unit when harmful sticky effluents, such as fuel oil, enter it.

The closest in technical essence to the proposed one is a biological treatment reactor [RU 2606435, C2, G02F 3/12, 01/10/2017], containing a chamber for swelling and removal of sludge, having a volume V, a gas supply system located in the lower zone near the bottom of the specified chambers for swelling and sludge removal, a liquid supply system located on or above the bottom of said chamber for swelling and sludge removal, a biological filter containing a dense filtering load of particles held in the lower part of said reactor by means of a perforated retaining upper wall from moving upward, and a volume of movable particles located within said chamber for swelling and removing sludge and above the bottom of said chamber for swelling and removing sludge, while the particles of said dense filter media and the volume of movable particles are carriers for the biological film, movable particles have a density of in the range from 900 to 1200 kg / m ³ , preferably from 920 to 980 kg / m ³ , particles in a dense filtering load 5 have a size from 2 to 6 mm and a density of 15-100 kg / m ³ , moreover, the mobile particles are hollow carriers having a surface area protected from collisions with the surfaces of other carrier elements, and having internal passageways channels, while the particle size of the dense filtering media exceeds the size of the largest internal passage channel of movable particles, the volume of the chamber for swelling and sludge removal is from 30 to 80%, preferably from 30 to 55%, of the total volume below the perforated retaining upper wall of the reactor biological treatment, while 20-70%, preferably 30-65%, of the volume of the chamber for swelling and sludge removal is filled with movable particles.

The disadvantage of the closest technical solution is its relatively large complexity and relatively low operational reliability caused by the complexity of maintenance, in particular, washing the reactor with loading when harmful sticky effluents, for example, fuel oil, enter it.

The problem that is solved in the utility model is aimed at creating a biological treatment reactor with a simple design and high operational reliability.

The required technical result consists in simplifying the design and increasing the operational reliability, as well as in expanding the arsenal of technical means that can be used for biological wastewater treatment.

The problem is solved, and the required technical result is achieved by the fact that, in a device containing a body in the form of two coaxial cylinders between the walls of which a bottom is made, on which a filtering load containing solid porous elements with microchannels is laid, forming an anaerobic zone with a biocenosis of microorganisms, according to the useful model, the filtering load is a flexible moisture-permeable sleeve made of woven polymer fibers, which is filled with solid porous elements with microchannels, while the sleeve is made in width according to the dimensions of the channel, which is formed by the walls of the cylinders and the bottom, and the ends of the sleeve are made with the possibility of tight closing.

In addition, the desired technical result is achieved in that the channel, which is formed by the walls of the cylinders and the bottom, is configured to supply water to it for cleaning and to remove water from it after biological treatment.

In addition, the required technical result is achieved in that the length of the sleeve is a flexible moisture-permeable sleeve of woven polymer fibers made along the length of the channel, which is formed by the walls of the cylinders and the bottom.

In addition, the required technical result is achieved by the fact that polypropylene threads or tapes are used as woven polymer fibers.

In addition, the required technical result is achieved by the fact that expanded clay or polymer materials are used as solid porous elements with microchannels.

In addition, the required technical result is achieved by the fact that solid porous elements with microchannels are made in the form of spheres with a diameter of 10 mm - 70 mm or cylinders with the same transverse diameter and length, or elements close to them in shape.

In addition, the required technical result is achieved in that the flexible moisture-permeable sleeve of woven polymer fibers is cylindrical with a diameter corresponding to the width of the bottom.

In addition, the required technical result is achieved by the fact that the flexible moisture-permeable sleeve made of fleecy woven polypropylene is made of sequentially tightly butted sleeve parts.

The drawing shows:

in fig. 1 an example of a biological treatment reactor;

in fig. 2 is an example of loading execution.

The biological treatment reactor contains a body 1 in the form of two coaxial cylinders 2 and 3, between the walls of which a bottom 4 is made, which form a channel in which a filtering charge 5 containing solid porous elements with microchannels is placed, forming an anaerobic zone with a biocenosis of microorganisms.

In the biological treatment reactor, the filtering load 5 is a flexible moisture-permeable sleeve 6 made of woven polymer fibers, which is filled with solid porous elements 7 with microchannels.

The sleeve 6 is made in width according to the dimensions of the channel, which is formed by the walls of the cylinders and the bottom, and the ends of the sleeve are made with the possibility of tight closure, for example, by sewing, using a Velcro-type lock, etc. The channel, which is formed by the walls of the cylinders and the bottom, is configured to supply water to it for cleaning and to remove water from it after biological treatment. When making a cylindrical sleeve, the diameter of its cross-section can be set 100-200 mm, length 2000-3000 mm.

The length of the sleeve 6 is made mainly along the length of the channel, which is formed by the walls of the cylinders and the bottom. As polymer fibers for the sleeve 6, threads or tapes made of polypropylene can be used, as solid porous elements with microchannels, expanded clay or polymer materials can be used, which fill the sleeve 6 with elements in the form of balls with a diameter of 10 mm - 70 mm or cylinders with such the same transverse diameter and length, or elements close to them in shape. The flexible moisture-permeable sleeve 6 of woven polymer fibers itself can be made of sequentially densely stacked end-to-end parts of such a sleeve, and in possible practical cases and in the form of a multilayer load.

The biological treatment reactor is used as follows.

Water is supplied to the reactor for cleaning. Due to the use of a filtering load in the form of a flexible moisture-permeable sleeve 6 made of woven polymer fibers, which is filled with solid porous elements with microchannels, the load represents an anaerobic zone with a biocenosis of microorganisms, for which very convenient conditions for reproduction are fulfilled. After biological treatment, water can be removed from the reactor.

Thanks to the improvements introduced in the proposed device, the required technical result is achieved, which consists in simplifying the design, as well as in increasing the cleaning efficiency and operational reliability, since the implementation of the loading of the proposed design, consistent with the dimensions of the housing, provides good conditions for the reproduction of microorganisms, and the replacement and washing of the load can be performed more quickly and efficiently. All this expands the arsenal of technical means that can be used for biological wastewater treatment.

Claims (8)

1. A biological treatment reactor containing a body in the form of two coaxial cylinders, between the walls of which a bottom is made, on which a filtering load containing solid porous elements with microchannels is laid, forming an anaerobic zone with a biocenosis of microorganisms, characterized in that the filtering load is a flexible moisture-permeable sleeve made of woven polymer fibers, which is filled with solid porous elements with microchannels, while the width of the sleeve is made according to the dimensions of the channel, which is formed by the walls of the cylinders and the bottom, and the ends of the sleeve are made with the possibility of tight closure. 2. The reactor according to claim 1, characterized in that the channel, which is formed by the walls of the cylinders and the bottom, is configured to supply water to it for cleaning and to remove water from it after biological treatment. 3. The reactor according to claim. 1, characterized in that the length of the flexible moisture-permeable sleeve of woven polymer fibers is made along the length of the channel, which is formed by the walls of the cylinders and the bottom. 4. The reactor according to claim 1, characterized in that polypropylene threads or tapes are used as polymeric fibers for making a flexible moisture-permeable sleeve made of woven polymeric fibers. 5. The reactor according to claim 1, characterized in that expanded clay or polymeric materials are used as solid porous elements with microchannels. 6. The reactor according to claim. 1, characterized in that the solid porous elements with microchannels are made in the form of spheres with a diameter of 10 mm - 70 mm or cylinders with the same transverse diameter and length, or elements close to them in shape. 7. The reactor according to claim. 1, characterized in that the flexible moisture-permeable sleeve of woven polymer fibers is cylindrical in shape with a cross-sectional diameter of 100-200 mm and a length of 2000-3000 mm. 8. The reactor according to claim. 1, characterized in that the flexible moisture-permeable sleeve of woven polymer fibers is made of sequentially densely stacked end-to-end parts.

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