RU2503622C1 - Effluents industrial effluents treatment plant - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention may be used for biological cleaning of industrial effluents. Proposed plant comprises vertical housing composed of two parts, i.e. top cylindrical part 1 and bottom conical part 2. Said cylindrical part 1 houses filtration element 15 composed of hollow perforated carcass. Perforated carcass is composed of truncated cone with chamfered and staggered holes 26. Outer surface of filtration element 15 is furnished with filtration element 17. Top section of filtration element 15 is rigidly secured to cover 13. Cover 13 has two through holes 27, 28 accommodating electric valves 31 for feeding of compressed air and water. Slime accumulation tank 32 is rigidly connected with filer housing bottom conical part 2. Top part of slime accumulation tank 32 has hole 33 to accommodate pipe 34 connected with effluents feed pump inlet 9. Bottom part of slime accumulation tank 32 has hole 38 to accommodate tangential slime discharge pipe 39 with pipeline 41 to discharge slime into slime accumulation tank 42. Said slime accumulation tank 32 has hole 43 communicated via pipeline 46 with slime feed pump inlet 47. Said slime accumulation tank 32 has filtrate discharge pipe 19 with filtrate accumulation tank 18 arranged there behind.

EFFECT: higher efficiency, longer life.

3 cl, 7 dwg

Description

The invention relates to hydraulic engineering and can be used for the treatment of industrial wastewater.

The closest technical solution is a filter for separating the suspension, comprising a housing of two parts, the upper vertical cylindrical with a pipe for feeding the suspension and the lower conical with pipes for draining the sludge and filtrate. A movable filter element in the form of a hollow perforated frame, inside which a tube for the filtrate is mounted axisymmetrically, and filter material is placed on the outer surface of the frame. The corrugated hose is connected at the lower end to a nozzle for draining the filtrate. A tube axisymmetrically mounted inside the filter element forms a vibration unit with it. The lower end of the tube is hermetically connected to the upper end of the corrugated hose, and the wall of the tube is hermetically connected to the nozzle of the filter element.

(RU patent No. 213135, M. cl., B01D 33/03, B01D 33/54, B01D 29/72 1998).

The disadvantages of the known device are:

- A significant difference in the diameters of the filter drain pipe and the drain pipe leads to a decrease in the process of separation of the suspension and filter performance.

- In the process of separation of the suspension through the filter material, the dispersed phase rapidly heals the surface suspension due to its radial feed, which leads to a stop of the filter.

- The limited resource of the corrugated hose at a large cantilever load leads to a low reliability of the filter.

The objective of the invention is the creation of an installation for the treatment of industrial wastewater with high efficiency, increased productivity and a significant cleaning resource.

Installation for industrial wastewater treatment, including a vertical filter housing with a sludge discharge pipe, consisting of two parts: an upper cylindrical one with a rigidly tangentially installed wastewater supply pipe and a lower conical one, equipped with a filter element made in the form of a hollow perforated frame on the outer surface of which filter material is fixed, new is that a container for collecting sludge is rigidly connected to the lower conical part of the filter housing, in the lower side of which a hole is made in which a sludge outlet pipe with a valve and a sludge discharge pipe is rigidly tangentially mounted to the sludge collection tank, and a hole is made in the lower part of the side surface of the sludge collection tank, in which a sludge supply pipe with a valve is rigidly radially mounted through a pipe connected with an inlet of the sludge feed pump, and in the upper part of the side surface of the sludge collection tank, an opening is made in which a nozzle with veins is rigidly radially installed with a recess inward of the tank sludge, which is connected through the pipeline with the flowmeter to the inlet of the sewage pump, while in the center of the bottom of the tank for collecting sludge, a filtrate outlet pipe is rigidly mounted, under which a tank for collecting filtrate is installed, and the perforated frame of the filter element is made in the form of a truncated cone with holes made with chamfers and staggered, and the upper part of the filter element is rigidly attached to the lid with a gasket sealed on the cylindrical part of the fil three with a flange rigidly attached from above with bolts and nuts, while in the cover there are two through holes with rigidly installed nozzles equipped with electric valves for supplying compressed air and water, and the sewage nozzle is equipped with a valve and through a pipeline with a manometer and a flowmeter is connected to the outlet of the sewage pump. The capacity for collecting the filtrate is equipped with a level control device. The sludge collection tank is equipped with a level control device.

The housing is equipped with a tank for collecting sludge, rigidly connected to its lower conical part, for the primary collection and disposal of sludge resulting from centrifugal separation of wastewater.

A hole is made in the lower part of the side surface of the sludge collection tank, in which a sludge discharge pipe with a valve and a sludge removal pipe is rigidly mounted tangentially to the sludge collection tank, which is necessary for the unimpeded removal of sludge during centrifugal rotation from the tank to the tank.

A hole is made in the lower part of the side surface of the sludge collection tank, in which a sludge supply pipe with a valve is rigidly radially mounted through a pipe connected to the inlet of the sludge supply pump, which is necessary to remove collected sludge from the tank.

A hole is made in the upper part of the side surface of the sludge collection tank, in which a nozzle with a valve is rigidly mounted radially with a recess in the tank, which is connected through the pipeline with a flowmeter to the inlet of the sewage pump, which ensures the circulation of wastewater and maintaining the optimal rotation speed of the vortex flow in the housing when the filter material is overgrown with solid deposits. As a result of control and regulation of wastewater recycling and centrifugal separation of solid particles, the surface of the filter material is cleaned of solid deposits.

In the center of the bottom of the tank for collecting sludge, a filtrate discharge pipe is rigidly installed, under which a container for collecting the filtrate is installed, which is necessary to drain the filtrate from the filter housing to the tank for collecting the filtrate.

The perforated frame of the filter element is made in the form of a truncated cone with holes made with chamfers and staggered to maximize the use of the area of the filter material for wastewater treatment.

The upper part of the filter element is rigidly attached to the cover with a gasket tightly mounted on the cylindrical part of the filter housing with a flange rigidly attached on top with bolts and nuts, which provides sealing between the inner surface of the housing and the outer surface of the filter material. When servicing the installation, it is possible to quickly remove the filter element with filter material from the housing.

The cover has two through holes with rigidly mounted nozzles equipped with electric valves for supplying compressed air and water, which provides reverse blowing with compressed air and regeneration of the filter material by rinsing with water by the rapid opening of electric valves.

The sewage supply pipe is equipped with a valve and, through a pipeline with a manometer and a flow meter, is connected to the outlet of the sewage supply pump, which is necessary for the controlled and regulated supply of sewage to the filter housing for treatment.

The proposed installation is illustrated by drawings:

Figure 1 shows the installation diagram;

figure 2 - view I is a filter;

figure 3 - view II is a cross section of the filter element with filter material;

figure 4 is a section aa;

figure 5 is a section bB;

figure 6 - section bb;

in Fig. 7 is a cross-section GG.

Installation for industrial wastewater treatment includes a vertical filter housing of two parts, the upper cylindrical 1 and the lower conical 2. An opening 3 is made in the lateral surface of the cylindrical part 1 of the housing, in which a pipe 4 for supplying wastewater with a valve 5 is rigidly installed, which the pipeline 6 with a pressure gauge 7 and a flow meter 8 is connected to the outlet of the wastewater pump 9. A flange 10 is rigidly fixed on the cylindrical part 1 of the filter housing and a cover 13 with gasket 14 is tightly mounted on top with bolts 11 and nuts 12. A filter element is installed inside the cylindrical part 1 of the filter housing in the form of a hollow truncated perforated cone 15, on the outer surface of which is rigidly fixed two clamps 16 filter material 17. In the center of the bottom 18 of the tank for collecting sludge is rigidly mounted pipe 19 of the filter outlet with a valve 20. The pipe 19 of the filtrate outlet is simultaneously rigidly and coaxially connected to erforirovannym cone 15.

The outlet of the filtrate outlet pipe 19 is sealed with a packing in the form of a bottom 18 of the sludge collection tank, with studs 21, nuts 22, gasket 23 and flange 24 rigidly fixed on its outer surface. In the filter element 15, openings 25 made with chamfers 26 are located in staggered. The upper part of the filter element 15 is rigidly attached to the cover 13, in which two through holes 27, 28 are made with rigidly installed nozzles 29 and 30, respectively, of compressed air and water supply with electric valves 31 each. The installation is equipped with a capacity 32 of the collection of sludge, rigidly connected to the lower conical part 2 of the housing. An opening 33 is made in the upper part of the lateral surface of the sludge collection vessel 32, in which a nozzle 34 is rigidly radially mounted with a recess in the inside of the sludge collection vessel 32, with a valve 35 and through a pipe 36 with a flow meter 37 connected to the input of the sewage pump 9.

An opening 38 is made in the lower part of the side surface of the sludge collection tank 32, in which a nozzle 39 is rigidly tangentially mounted for discharging sludge with a valve 40 and a sludge discharge pipe 41 into the sludge collection tank 42. An opening 43 is made in the lower part of the side surface of the sludge collection tank 42, in which a sludge supply pipe 44 with a valve 45 is rigidly radially mounted and connected through an inlet 46 to the inlet of the sludge supply pump 47. The installation is equipped with a capacity 48 for collecting the filtrate, installed under the pipe 19 of the drainage of the filtrate. An opening 49 is made in the lower part of the side surface of the filtrate collection container 48, in which the filtrate supply pipe 50 with a valve 51 is rigidly radially mounted.

The sludge collection tank 42 and the filtrate collection tank 48 are each equipped with level control devices 52.

Installation works as follows.

Valves 5, 20, 40, 45, 51 are opened. Electric valves 31 are normally closed. The valve 35 is closed. The wastewater pump 9 is turned on, after which the wastewater through a conduit 6 with a pressure gauge 7, a flowmeter 8 and a wastewater supply pipe 4 tangentially enter the inside of the filter housing and swirl in the form of a vortex flow. In the cylindrical part 1 of the filter housing, the wastewater is subjected to centrifugal separation, as a result of which the solid particles are centrifugally pressed against the inner surface of the cylindrical part 1 of the housing and are lowered in a spiral trajectory in the form of a rotating slurry layer on the bottom 18 of the sludge collection tank 32 and then along the slurry the layer enters the sludge outlet pipe 39 and flows through the pipe 41 into the sludge collection tank 42 under the pressure of the sewage pump 9. At the same time, the wastewater is filtered and squeezed under pressure from the wastewater supply pump 9 through the filter material 17 and the filter element 15 into the internal cavity of the filter element 15 and flow through the filtrate discharge pipe 19 into the filtrate collection tank 48 in the form of a filtrate. At the same time, the swirling stream of wastewater rotating along a spiral trajectory, with a layer adjacent to the surface of the filter material 17, removes a layer of settled sludge, cleans and slows down the overgrowing process. The beginning and dynamics of overgrowth of the filter material 17 is controlled by the readings of the pressure gauge 7 and the flow meter 8. To maintain the vortex flow rate optimal for cleaning the surface of the filter material 17, open the valve 35 until the initial, nominal values of flow rate and hydraulic resistance of the filter are returned, which depends mainly on the hydraulic resistance of the filter material 17 of the installation, determined by the flow meter 8 and the pressure gauge 7. Damage to the filter material 17 divided by a pressure gauge 7 and a flow meter 8. During operation of the installation, solid particles begin to clog the microscopic capillary channels in the filter material 17. When the volume of recycled wastewater in the total capacity of the installation exceeds half that determined by the flow meter 37, the filter material 17 is subjected to soft regeneration with compressed air as follows way. The wastewater pump 9 is turned off, the valve 20 of the filtrate outlet pipe 19 is closed and the compressed air supply valve 31 is turned on, by which solid particles from the pores and microcapillary channels in the filter material 17 are blown into the cavity between the upper cylindrical part 1 of the housing and the filter element 15 and in the form of sludge fall into the tank 32 collecting sludge. The filter is returned to the operating state in the reverse order. The electric valve 31 for supplying compressed air is turned off, the valve 20 for extracting the filtrate is opened, the pump 9 for supplying wastewater is turned on, and the installation is continued. Similarly, a rigid regeneration of the filter material 17 is carried out during its deep overgrowing, in which the electric valve 31 for supplying water is turned on. If the filter material 17 is damaged or if filter maintenance and repair is necessary, the wastewater pump 9 is turned off, the valve 20 of the filtrate outlet pipe is removed, the nuts 22 on the studs 21 are unscrewed and the flange 24 is removed from the filtrate outlet pipe 19, the nuts 12 are unscrewed on the bolts 11 of the lid 13 and remove the lid 13 with the filter element 15, the filter material 17 and the pipe 19 of the filtrate discharge from the filter housing. When replacing a damaged filter material 17, the clamp 16 is removed, the filter material 17 is removed from the filter element 15 through the filtrate outlet pipe 19 and a new filter material 17 is put on the filter element 15, which is rigidly fixed with clamps 16 on the filter element 15. The filter is assembled in the reverse order . The filling of the sludge collection tank 42, the filtrate collection tank 48 and the achievement of an acceptable level of sludge and filtrate in them are determined by level control devices 52.

The technical result of the invention is the creation of an installation for treating industrial wastewater with high efficiency for treating water from solid particles of 85% -95%, depending on the fractional composition, with increased productivity and a long life of continuous operation of the installation from one year or more.

Claims (3)

1. Installation for industrial wastewater treatment, including a vertical filter housing with a sludge discharge pipe, consisting of two parts: the upper cylindrical one with a rigidly tangentially installed waste water pipe and the lower conical one, equipped with a filter element made in the form of a hollow perforated frame on the outside the surface of which filter material is fixed, characterized in that a container for collecting sludge is rigidly connected to the lower conical part of the filter housing, in the lower side of which A hole is made in which a sludge outlet pipe with a valve and a sludge removal pipe is rigidly tangentially installed in the sludge collection tank, while a hole is made in the lower part of the side surface of the sludge collection tank, in which a sludge supply pipe with a valve is rigidly radially installed, through a pipe connected with an inlet of the sludge feed pump, and in the upper part of the side surface of the sludge collection tank, a hole is made in which a pipe with a a style that is connected through the pipeline with a flowmeter to the inlet of the sewage pump, while in the center of the bottom of the tank for collecting sludge, a filtrate outlet pipe is rigidly mounted, under which a tank for collecting filtrate is installed, and the perforated frame of the filter element is made in the form of a truncated cone with holes made with chamfers and staggered, and the upper part of the filter element is rigidly attached to the lid with a gasket sealed on the cylindrical part of the housing filter with a flange rigidly mounted on top with bolts and nuts, while in the cover there are two through holes with rigidly mounted nozzles equipped with electric valves for supplying compressed air and water, and the sewage pipe is equipped with a valve and through a pipeline with a manometer and a flowmeter is connected to the outlet of the sewage pump. 2. Installation according to claim 1, characterized in that the capacity for collecting the filtrate is equipped with a level control device. 3. Installation according to claim 1, characterized in that the reservoir for collecting sludge is equipped with a level control device.

Images