RU2071955C1 - Pneumatic aerator - Google Patents

Abstract

FIELD: waste water purification. SUBSTANCE: invention refers to biochemical purification of natural, household, and industrial polluted water. In order to enhance efficiency of saturation of a liquid with gas by way of ensuring uniform small- bubble distribution of a medium being dispersed all over the length of apparatus, the frame of pneumatic aerator is made in the form of a perforated tube with conical openings arranged in rows and being shifted in adjacent rows by a half-pitch between openings in a row. Intermediate layer between the frame and case is made in the form of voluminous polymer braid wound on the frame in two directions with overlap. The tube with wound braid is surrounded from above with strongly porous case fabricated by the aid of pneumoextrusion technique and being a fiber material with pore size 500-600 mcm. The case supports a dispersing layer, which in turn has been applied onto the case surface also by pneumoextrusion technique, its pore size being 30-80 mcm. In order to elongate apparatus to provide more uniformity in aeration all over the length of the tank, the frame is provided from two sides with couplings having matched threads. EFFECT: enhanced efficiency of purification process. 2 cl, 2 dwg

Description

 The invention relates to biochemical treatment of natural, domestic and industrial wastewater and can be widely used in various industries.

 Various types of dispersing and aerating devices for treating natural and industrial wastewater are known.

For example: "Pneumatic aerator" installed in an aeration tank containing a dispersant in the form of a porous pipe connected to the duct, and it is equipped with at least two reflectors in the form of overturned truncated cones with an angle between the generatrix of the cone and its large base 40-60 ^o located on the outer part of the dispersant, while the dispersant is installed vertically with the formation of a gap between the bottom of the aeration tank and the lower part of the dispersant, made open, the duct is connected to the upper part of the dispersant, inner part of the dispersant is made conical, expanding downward with a taper angle inversely proportional to the porosity of the dispersant material, and the outer diameters of the overturned truncated cones decrease along the height of the dispersant from bottom to top. (A.S. N 1673536, С 02 F 3/20, dated 30.08.91).

 A "fluid aeration device" comprising a guide tube, a vertical shaft with a rotor blade, an air duct and a reflective cone mounted on its axis in the upper part, the reflective cone being hollow inside with a perforated surface coated with a layer of elastic finely porous rubber and connected to the air duct. (A.S. 1655916, C 02 F 3/16, dated 06/15/91).

 "Aeration device for introducing air or oxygen into wastewater at a treatment plant or into natural water", an aeration device made of a porous material for introducing air in the form of small bubbles into wastewater entering a biological treatment plant is proposed. The device does not clog pores, despite the high air flow. The porous material has a fibrous structure. (Application of Germany N 3227671, C 02 F 3/20, from 01.26.84).

 "Method and device for biological treatment of wastewater", the device contains tubular mesh elements with a hole size of 15x15-25x25 mm, made of strips welded at the intersection of strips of 3-8 mm wide, fixed between two plates with holders. The obtained filler blocks are installed horizontally or vertically in the wastewater treatment tank of the installation with circulation and aeration of the water treated for the purpose of purification. The total area of the mesh elements is 30-50% of the tank area (Japanese application N 57-4382, C 02 F 3/02, dated 01.26.82).

 Closest to the proposed invention is a technical solution described in the application of Germany N 3226065, C 02 F 3/20, 1983 "Tubular aerator" containing a frame in the form of a perforated pipe, a porous sleeve mounted on it, a dispersing layer (in the form of a rubber shell with thin slots) and an intermediate layer in the form of a spiral perforated hose located between the pipe and the sleeve.

 The disadvantages of the above inventions include the complexity of the device, as well as the lack of uniformity of distribution of the dispersible medium.

 The aim of the invention is to increase the efficiency of saturation of the liquid with gas by ensuring uniform and finely bubble distribution of the dispersible medium along the entire length of the device.

 To ensure the above goals in a known pneumatic aerator containing a frame in the form of a perforated pipe with perforation in the form of conical holes arranged in rows with a step of 2-8 diameter of the middle holes. The holes in the adjacent rows are offset relative to each other by half a step between the holes. A polymer bulk rope is wound on the body of the frame in two directions with overlap, forming an intermediate layer. On top, the winded pipe is surrounded by a highly porous sleeve obtained by pneumatic extrusion and representing a polymeric fibrous material with a porosity of 500-600 μm and being a substrate for a dispersing layer, which, in turn, is also applied to the surface of the sleeve by pneumatic extrusion and has a porosity of 30-80 μm .

 To ensure uniform distribution of the dispersible medium throughout the tank, it is possible to extend the device using sections; for this, the device casing is equipped on both sides with couplings that have mating threads, one external and the other internal.

 Known US patent N 4818446, B 01 F 3/04, from 04.04.89 "Device for introducing gas into the liquid", which is made as a single tubular bubbler formed by the middle section and two opposite end sections, in each of which is inserted a plug . Both plugs form a closed chamber between themselves and two open chambers located at the ends, a distribution hole is made in each end section in the closed chamber, communicating between them. The middle section of the bubbler is attached to the feed pipe so that the latter is connected to a closed chamber. Each end section is coaxially surrounded by an elastic perforated sleeve capturing the distribution holes.

 From the above technical solution it is seen that in it the end sections are covered by an elastic perforated sleeve.

 The present invention also uses a highly porous polymer sleeve, but unlike the known essential feature of the invention described in the US patent, it covers the device body on which the winding is overlapped and the sleeve is obtained by pneumatic extrusion and is a polymeric fibrous material with a porosity of 500-600 μm .

 In another application of the United Kingdom N 2183497, B 01 F 3/04, dated 06/10/87, which describes the "Diffuser", made in the form of a porous tube with a jacket of hydrophobic porous plastic, which is a winding of plastic tape, and each winding is located overlapping, as in the present invention used winding plastic tape.

 However, in the present invention, a polymer bundle is wound on the device body, not a tape, and in two directions with an overlap, and not an overlap. In addition, this winding is not the upper jacket of the device, but serves as the main one for two more layers: a highly porous sleeve and a dispersing layer obtained by pneumatic extrusion.

 Therefore, the proposed technical solution has a combination of new essential features that provide an inventive step and is industrially applicable.

In FIG. 1 shows a longitudinal section through a pneumatic aerator; in FIG. 2
cross section of the aerator.

 The pneumatic aerator according to FIG. 1 and 2 comprises a frame 1 in the form of a polymer perforated pipe, the perforation in which is a conical hole 2 arranged in rows with a pitch of 2-8 diameters of the middle holes, the holes in adjacent rows being offset halfway between each other relative to each other. Two couplings 3 and 4 are welded to the frame from two sides, having mating threads, one external and the other internal. The bulk polymer tow 5 is wound on the body of the frame in two directions with overlap and forms an intermediate layer between the frame and the sleeve. The case of the winding device is covered by a highly porous sleeve 6 obtained by pneumatic extrusion with a porosity of 500-600 μm, a dispersing layer 7 is applied on top of the sleeve, also obtained by pneumatic extrusion and with a porosity of 30-80 μm.

 Pneumatic aerator operates as follows.

 1. An example of the installation of one section of the aerator (one clutch of the aerator is plugged).

 The dispersible medium under pressure is fed into the perforated pipe 1 and, passing through the perforation 2, enters the interlayer space, where it is freely distributed in the channels formed by the body of the frames, the tow 5 and the porous sleeve 6, then the dispersible medium passes through the dispersing layer 7 itself, in which already complete uniformity of its distribution along the entire length of the aerator is achieved, as well as its fine bubble.

 2. An example of a sectional installation of a pneumatic aerator.

 From single sections of the aerator, by screwing on the mating threads of the couplings one on top of the other receive lashes of a given length, which are laid on the bottom of the tank, and in each section of the lash the process described in Example 1 occurs, and when using such a sectional device, the dispersion medium is uniformly distributed over the entire volume of the tank.

 The application of the proposed device ensures uniform distribution of the dispersible medium along the entire length of the device and its fine bubble, and with sectional use, also uniform distribution of the dispersible medium throughout the volume of the tank.

 Moreover, the perforation in the form of conical holes provides the lowest coefficient of flow rate of the medium in the hole sections (the greatest effect when using the device sectionally), winding a bulk polymer bundle increases the interlayer space, which also increases the aeration efficiency of the medium, serving as a substrate for the dispersing layer, the highly porous sleeve serves as a dust collector and made of two sections, makes it easy to replace it when clogged, the dispersing layer allows you to achieve the desired shallow Roughness distribution of the medium.

Therefore, the use of the proposed device can dramatically increase the efficiency of aeration, carry out a set of sections of the desired length for any tank profile, easily change individual elements of the device when they become clogged, which expands the scope of such devices and allows to achieve the following technical and economic indicators:
oxidizing ability when immersed at 1 m and air consumption 3.3 m ³ / h GO ₂ / m ³ • h 41.2
aeration efficiency when immersed at 1 m and air consumption 3.3 m ³ / h kGO ₂ / kW • h 3.25
air permeability of 1 running meter l / min to 250.

Claims (2)

 1. A pneumatic aerator containing a frame in the form of a perforated pipe, a highly porous sleeve mounted on it, an external dispersing layer and an intermediate layer located between the frame and the sleeve, characterized in that the pipe openings are conical in shape and are arranged with their offset in adjacent rows equal to half a step between the holes, the intermediate layer is made in the form of a bulk polymer bundle and is installed by winding on the frame in two directions with overlap, the highly porous sleeve is pneumatically extruded th of a fibrous material with a porosity of 500 to 600 μm, and the dispersing layer is made by pneumatic extrusion of a material with a porosity of 3 O 80 μm.  2. The aerator according to claim 1, characterized in that the frame is made with couplings located on both sides of it, while one clutch is made with external and the other with internal mating threads.

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