RU169418U1 - Sorption wastewater filter - Google Patents

Abstract

The utility model relates to the field of wastewater treatment, namely, devices for filtering and sorption wastewater treatment from suspended solids and oil products at the end of the sewer network in front of the control well. The technical result is achieved by using a sorption wastewater filter in the form of a cartridge with a permeable top and the lower ends and an impermeable side wall filled with zeolite and activated carbon, while the zeolite and activated carbon are located in containers of elast LfTetanus tubular knitted plush weave knit from both polyacrylamide and polyurethane fibers nitey.Tehnichesky result is to increase the efficiency of the sorption filter.

Description

The utility model relates to the field of wastewater treatment, namely, devices for the filtration-sorption treatment of wastewater from suspended solids and oil products at the end of the sewer network in front of the control well.

Known sorption filter in the form of an activated carbon cartridge, installed directly in the wells of storm sewers, with the discharge of purified water in the upper part (Utility Model Patent RU 140160, IPC C02F 1/00, published on 04/27/2014)

The disadvantage of this filter is the low efficiency of water purification from suspended solids and oil products.

A known filter of sorption water purification, located in the underground space in a concrete well, loaded with modified nitrogen-containing activated carbon, with the possibility of supplying water for cleaning in the upper part of the sorption filter (Utility Model Patent RU 38751, IPC C02F 1/00, published on 10.07 .2004).

The disadvantage of this filter is the low efficiency of water purification from suspended solids and oil products due to the slow displacement of air bubbles from the sorption filter caused by design features.

The closest is a filter for sorption wastewater treatment in the form of a cartridge with permeable upper and lower ends and an impenetrable side wall, located in the underground space in a concrete well, with the possibility of supplying wastewater to the bottom of the filter for sorption treatment in the direction of movement of water. The sorption purification filter contains zeolite and / or activated carbon (or modified zeolite and / or activated carbon) (Utility Model Patent RU 150518, IPC C02F 1/00, published on 02.20.2015).

The disadvantage of this filter is the low efficiency of water purification from suspended solids and oil products.

The objective of the utility model is to develop a sorption purification filter for technical and technological purposes in water circulation.

The technical result is to increase the efficiency of the sorption filter.

The technical result is achieved by using a sorption wastewater filter in the form of a cartridge with permeable upper and lower ends and an impenetrable side wall filled with zeolite and activated carbon, while the zeolite and activated carbon are located in containers of elastic tubular knitwear by weaving plush from simultaneously knitted polyacrylamide fiber and polyurethane threads.

The filter for sorption wastewater treatment is included in the filter system for water treatment, consisting of mechanical and sorption filters, located in the underground space in separate wells connected by pipelines.

The filter for sorption wastewater treatment is located in the underground space in a separate well, connected by pipelines with the possibility of supplying wastewater to the treatment from the bottom up and the removal of the upper part of the filter in the direction of movement of the water.

The sorption filter is made in the form of a cartridge with a watertight upper and lower ends and an impermeable side wall and is filled with containers of elastic tubular knitwear by weaving plush from simultaneously knitted polyacrylamide fibers and polyurethane threads containing zeolite and activated carbon.

Water passes the sorption filter from bottom to top and, leaving the top of the filter, is drained through a pipeline into a control well and then discharged to a sewer network or reservoir.

An increase in the efficiency of the sorption cleaning filter when zeolite and activated carbon are placed in containers of elastic tubular knitwear by plush weaving is due to the fact that containers of elastic tubular knitwear by plush weaving adsorb particles suspended in solution on the surface (due to polyacrylamide fiber and plush weaving), and also play the role of a sorbent in oil refining, which increases the sorption ability of the filter and increases the efficiency of the filter sorption cleaning and the entire filter system.

In addition, filling the sorption filter with zeolite and activated carbon located in containers facilitates and simplifies the filter regeneration process by conveniently replacing containers with spent sorbent with a container with fresh or regenerated cellite and activated carbon, which also leads to an increase in the efficiency of the sorption filter cleaning and the entire filter system.

At the same time, zeolite and activated carbon can be located in one or in different containers.

Activated carbon allows efficient absorption of non-polar components of oil products from water, and zeolite - polar components of oil products. Chemical modification of zeolite and / or activated carbon is usually more preferable, since it leads to an increase in cleaning efficiency, since it allows you to get a deeper wastewater treatment. In this case, the modification can be aimed at increasing the filter capacity relative to a particular pollutant.

The active amide groups of the polymer chain of the polyacrylamide fiber provide suspension of wastewater suspension from the surface of the tubular knitted container and create conditions for their globalization, as a result of which large flocs form from the suspension, which are more easily deposited on the sorption filter. In addition, being an effective sorbent with respect to oil products, containers made of tubular knitwear made of polyacrylamide fiber by plush weaving perform additional oil purification, and the fleecy surface of the containers additionally holds suspensions contained in waste water.

The implementation of containers from elastic tubular knitwear by weaving plush from simultaneously knitted polyacrylamide fibers and polyurethane yarns, thanks to the extremely dense porous structure of elastic knitwear, ensures the permeability of the container for purified water and filling the container with contents (sorbent), and during the regeneration of the sorbent due to the elongation of the knit in longitudinal and transverse direction convenient unloading of spent and loading into containers of a new or regenerated sorbent (possible zhnosti reusable).

In FIG. 1 shows a general view of a sorption cleaning filter in a system of filters placed in underground concrete wells, FIG. 2 shows a graphical representation of an elastic tubular knit weave plush.

The filter for sorption treatment of 1 waste water is included in the filter system for water treatment, consisting of a storage tank (well) 2, a mechanical filter 3 of treatment, a sorption filter of 1 treatment and a control well 4 located in the underground space in separate wells connected by pipelines 5.

The filter for sorption treatment of 1 wastewater is made in the form of a cartridge with a permeable upper end and lower end and an impermeable side wall. The inner space of the cartridge 1 is filled with containers 6 of tubular knit fabric made of polyacrylamide fiber by weaving plush from simultaneously knitted polyacrylamide fiber 7 and polyurethane threads 8, filled with zeolite 9 and activated carbon 10.

Elastic tubular knitwear by weaving plush from simultaneously knitted polyacrylamide fiber 7 and polyurethane yarns 8 is obtained on a round single-cylinder knitting machine MS-5 of a large diameter 22 class using plush platens with a cooler depth of 1.5-2.0 mm on main platans, and on plush platens 2.5-2.8 mm and with a tension of polyacrylamide fiber 7 equal to 1.8-2.6 N and polyurethane threads 8 equal to 2.3-2.8 N. Plush weaving is formed while simultaneously looping polyacrylamide fiber 7 and polyurethane n Tei 8, to form a skeleton of polyurethane elastic yarns 8 and plush loops forming the porous surfaces of the fibers 7 polyacrylamide.

Ready-made containers 6 of elastic tubular knit weaving plush from simultaneously knitted polyacrylamide fibers 7 and polyurethane threads 8 are filled with zeolite 9 and activated carbon 10 and placed in a sorption filter 1.

The utility model works as follows.

Water from the sewer network flows into storage tank 2, from where it flows through pipeline 5 (due to the difference in hydrostatic heights) to an adjacent well with a mechanical filter 3. Moreover, the water levels in both wells are balanced according to the law of communicating vessels. Further, passing from top to bottom through a mechanical filter 3, water enters the lower part of the well with a mechanical filter 3, and then through pipeline 5 to the lower part of the well where the sorption filter 1 is located. Passing the sorption cleaning filter 1 from the bottom up and leaving the filter 1 , the water is discharged through pipeline 5 to the control well 4, after which it is discharged to a sewer network or reservoir.

When supplying wastewater from bottom to top through a sorption filter with containers of elastic tubular knitwear, weaving plush from simultaneously knitted polyacrylamide fibers and polyurethane threads filled with zeolite and activated carbon, the wastewater is purified from fine suspensions and oil products.

In addition, the use of containers made of elastic tubular knitwear from simultaneously knitted polyacrylamide fibers and polyurethane yarns by plush weaving simplifies the process of replacing spent sorbent.

Elastic tubular knitwear from simultaneously knitted polyacrylamide fibers and polyurethane yarns by plush weaving is stretched in the longitudinal and transverse directions (as a result of which the pore size increases) and washed with a reverse flow of liquid or gas from mechanical pollutants. When the resource is exhausted, the containers are replaced.

Thus, the use of a filter for sorption wastewater treatment in the form of a cartridge with permeable upper and lower ends and an impenetrable side wall, containing containers of elastic tubular knitwear by interlacing plush from simultaneously knitted polyacrylamide fibers and polyurethane threads filled with zeolite and activated carbon, provides increased work efficiency sorption filter and the entire filter system.

Claims (1)

A sorption wastewater filter in the form of a cartridge with a watertight upper and lower ends and an impermeable side wall, filled with zeolite and activated carbon, characterized in that the zeolite and activated carbon are located in containers of elastic tubular knitwear interlacing plush from simultaneously knitted polyacrylamide fibers and polyurethane threads .

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