RU210852U1 - Sorption filter for industrial wastewater treatment - Google Patents

Abstract

The utility model relates to devices for the purification of wastewater from industrial enterprises from pollutants, in particular, heavy metal ions, organic compounds entering the environment with wastewater. The sorption filter for industrial wastewater treatment contains three cassettes located one above the other, made in the form of separate containers filled with various sorbents and equipped with means for installing and fixing the cassettes one above the other. Cassettes are made of high-strength plastic. At the bottom of each cassette there are cylindrical culvert holes evenly distributed over the area, and at the bottom of each cassette there is a grid with holes with a diameter equal to 0.9-0.95 of the diameter of the sorbent particles. As a filler for each of the cassettes, sorbents are used: the upper cassette is silica gel of the MCCG brand; middle cassette - anion exchange resin brand AV-29-12P; lower cassette - bentonite, modified with carbon nanotubes and heat-treated at a temperature of 550-570°C. The structure is covered with a metal cover, on the inside of which perforated plastic tubes are evenly placed over the area and fixed, made with the possibility of supplying treated water to the upper cassette through the holes in the tubes. Perforated plastic tubes attached to the metal housing cover are connected to the treated water supply hose. The lower cassette is placed on a metal rack, to which a water collection pipe for purified water is attached. The utility model provides an increase in the efficiency of water purification and reliability of the design. 2 w.p. f-ly, 2 ill.

Description

The utility model relates to devices for the purification of industrial wastewater from pollutants, in particular, heavy metal ions, organic compounds entering the environment with wastewater.

Known biosorption filter for wastewater treatment, consisting of a housing with inlet and outlet nozzles and layers of filler located in the housing, fine-grained and coarse-grained loads, and as a filler it contains layers: sorbent H - unburned wood bark, spruce-aspen bark 5-year-old and waste from the pulp and paper industry - osprey, as a fine-grained load - gravel of a fraction of 50-100 mm; as a coarse-grained load - slag; the sequence of layers in the filter housing in the direction of the purified water is as follows: bark, slag, osprey, sorbent, gravel. (Patent RF No. 2186618, class B01J 20/00, B01D 39/00, 2002).

The disadvantage of this device is the impossibility of replacing a single layer of the sorbent and the need to replace the entire load as a whole, which requires additional effort and cost.

Known sorption filter containing a housing placed in it between two grids in layers with alternating coarse and fine fractions of the sorbent, pipes for supplying and discharging the liquid to be purified, wherein the sorbent is made on the basis of zeolite and placed in the filter housing in the following sequence relative to the pipe for supplying liquid : the first layer, equal to 1/3 V, where V is the total volume occupied by the sorbent, and loaded with a coarse fraction from 3 to 4 mm, the second layer, equal to 1/6 V and loaded with a fine fraction from 1.5 to 2 mm, the third a layer equal to 1/6 V and loaded with a fine fraction from 0.5 to 1 mm, a fourth layer equal to 1/3 V and loaded with a coarse fraction from 3 to 4 mm. (Patent RU No. 15174, class B01D 24/00, Bull. No. 27, 2000).

The disadvantage of this device is the impossibility of replacing a separate layer of the sorbent and the need to replace the entire load, which is not economically viable in an industrial enterprise with large volumes of wastewater and the use of a complex filter load for cleaning industrial effluents simultaneously from several pollutants.

Known sorption filter containing located one above the other cassettes with sorbents, placed in a metal case retractable in a horizontal direction along the guides; at the same time, perforated tubes for supplying purified water to the upper cassette through the holes in the tubes are evenly placed and fixed in the ceiling part of the metal case, and the lower part of each cassette is equipped with a grid and equipped with a distributor that directs the purified water from the upstream cassette to the lower one through evenly distributed by area short branch pipes; at the bottom of the metal case there is a drainage tray for purified water. (Patent RU No. 174230, class C02F 1/28, B01D 24/14, Bull. No. 28,2017).

The disadvantage of this filter is the need for additional sealing and careful sealing of the cassettes in the retracted state to prevent leakage of treated water, which requires constant monitoring of the condition and replacement of the seals of the front walls of the cassettes.

The closest to the utility model in terms of technical essence is a filter for water purification, containing cassettes located one above the other, filled with a granular load, a means for supplying purified water to the upper cassette and a branch pipe for removing purified water attached to the lower cassette, while the cassettes are made in the form located one in the other containers, the inner container has holes in the upper part for overflowing excess water and the load is located in it, and the outer one is equipped with a means for installing cassettes one on top of the other and removing them. (Patent RU No. 2073551, class B01D 24/10, Bull. No. 27, 2000).

The disadvantage of this device is a high probability of entering the upper cassette of salvo flows of purified water, leading to excess discharges through the sides of the cassettes, uneven distribution of water over the cassette area and the formation of washout craters in the filter media of the upper cassettes.

The objective of the utility model is to increase the efficiency of water purification due to the uniformity of water supply to each cassette, as well as to save water by preventing volleys of treated water due to water supply to the upper cassette through holes in perforated tubes evenly placed on the inside of the metal cover.

The technical result consists in increasing the efficiency of water purification and increasing the reliability of the design.

This problem is solved by the following design features. Firstly, a sorption filter for industrial wastewater treatment contains three cassettes filled with various sorbents and located one above the other, in the bottom of each of which there are cylindrical culverts evenly distributed over the area, and at the bottom of each cassette there is a grid with holes with a diameter of 0 .9-0.95 of the sorbent particle diameter, which contributes to the uniform distribution of the purified water when it enters each of the cassettes and to increase the efficiency of water purification. Secondly, sorbents are used as a filler for each of the three cassettes: the upper cassette is silica gel of the MSKG brand; middle cassette - anion exchanger brand AV-29-12P; lower cassette - bentonite, modified with carbon nanotubes and heat-treated at a temperature of 550-570°C. The filter media from the listed sorbents ensures high quality of water purification from aromatic compounds, dyes, heavy metals and other toxicants. Thirdly, the structure is covered with a metal cover, on the inside of which perforated plastic tubes are evenly placed and fixed, ensuring uniform distribution of treated water throughout the upper cassette through the holes in the tubes, which enhances the effect of water treatment and excludes the flow of volley wastewater into upper cassette, increasing the reliability of the design. Perforated plastic tubes attached to the metal housing cover and connected to an external hose through which water is supplied allow the supply of purified water to the filter. The discharge of purified water to the consumer is carried out through a water collection pipe attached to a metal rack, on which the lower filter cassette is placed.

In FIG. 1 shows a sorption filter for industrial wastewater treatment; in fig. 2 - comparative characteristics of various variants of sorbents in terms of water purification efficiency.

The sorption filter for industrial wastewater treatment includes three cassettes located one above the other: upper 1, middle 2 and lower 3, made in the form of separate containers filled with various sorbents 4 and equipped with means 5 for installing and fixing the cassettes one above the other. The cassettes are made of high-strength plastic, and in the bottom 6 of each cassette there are cylindrical culvert holes 7 evenly distributed over the area, and at the bottom of each cassette there is a grid 8 with holes with a diameter equal to 0.9-0.95 of the diameter of the sorbent particles. The cassettes are filled with the following sorbents: the top 1 - with silica gel of the MSKG brand; middle 2 - anionite brand AV-29-12P; lower 3 - bentonite, modified with carbon nanotubes and heat-treated at a temperature of 550-570°C. The whole structure is covered with a metal cover 9, on the inner side 10 of which perforated plastic tubes 11 are evenly spaced and fixed, made with the possibility of supplying treated water to the upper cassette through holes in the tubes 12, which are connected to the hose 13 for supplying purified water. The lower cassette is placed on a metal rack 14, to which a water collection pipe 15 for purified water is attached.

Sorption filter for industrial wastewater treatment works as follows.

Purified water is supplied with a hose 13 into perforated tubes 11 and then through the holes 12 in the tubes 11 is sent to the upper cassette 1, evenly distributing over the area, which ensures the full operation of the sorbent 4 over the entire area of the cassette 1 and allows you to increase the effect of water purification. After passing through the layer of sorbent 4 in the upper cassette 1, the water is directed through the grid 8 in the lower part of the upper cassette 1 and then through the culvert holes 7 in the bottom of the cassette 1 - into the middle cassette 2. Similarly, the purified water is passed through the layers of sorbents 4 in the middle 2 and lower 3 cassettes. Having passed sequentially through all three layers of sorbents 4 placed in cassettes 1, 2 and 3, the purified water is sent to the drainage pipe 15 and then to the consumer.

An increase in the efficiency of water purification is achieved by uniform water supply to the upper cassette 1 due to the uniform placement of 9 perforated plastic tubes 11 on the inner side 10 of the metal cover, which improves the wetting of the surface of the sorbent 4 with water and eliminates volleys of water, providing an increase in the reliability of the design. Improving the quality of wastewater treatment from aromatic compounds, dyes, heavy metals and other toxicants is provided by a filtering sorption load in three cassettes: the top 1 with silica gel of the MCCG brand; medium 2 with anion exchanger brand AV-29-12P; lower 3 with bentonite modified with carbon nanotubes and heat-treated at a temperature of 550-570°C. Improving the efficiency of water purification by uniform water supply from each upstream cassette to the downstream one is provided by cylindrical culverts 7 uniformly distributed over the area of the bottom 6 of each cassette, which increases the efficiency of wetting the surface of the sorbent 4 with water.

An example of the use of the proposed sorption filter with a filter load, including silica gel of the MCCG brand, anion exchanger of the AV-29-12P brand and bentonite modified with carbon nanotubes after heat treatment at a temperature of 560°C, for water purification from organic contaminants of high concentrations (1÷4 g/ dm ³ ) compared with the prototype and loading from the traditionally used activated carbon brand BAU-A. Detailed composition of each filter option is given in the table.

According to the research results, a diagram in Fig. 2, which reflects the comparative characteristics of the efficiency of each filter and allows you to compare their efficiency in water purification from high concentration organic contaminants. The studied model solution passed through each sorption filter had a volume of 500 ml and contained four aromatic compounds: p-dinitrobenzene, p-nitroaniline, o-toluidine, and resorcinol.

The obtained results showed that the filter with loading No. 2 has a significant advantage in terms of wastewater treatment efficiency, compared with the filter with loading No. 1.

Claims (3)

1. A sorption filter for industrial wastewater treatment, containing three cassettes located one above the other, made in the form of separate containers filled with various sorbents and equipped with means for installing and fixing the cassettes one above the other, characterized in that the cassettes are made of high-strength plastic, and at the bottom of each cassette there are cylindrical culverts evenly distributed over the area, and at the bottom of each cassette there is a grid with holes with a diameter equal to 0.9-0.95 of the diameter of the sorbent particles; in addition, sorbents are used as a filler for each of the cassettes: the upper cassette is silica gel of the MCCG brand; middle cassette - anion exchanger brand AV-29-12P; lower cassette - bentonite modified with carbon nanotubes and heat-treated at a temperature of 550-570°C; at the same time, the structure is covered with a metal cover, from the inside of which perforated plastic tubes are evenly placed over the area and fixed, made with the possibility of supplying water to be purified into the upper cassette through the holes in the tubes. 2. Sorption filter for industrial wastewater treatment according to claim 1, characterized in that perforated plastic tubes attached to the metal cover of the housing are connected to the supply hose of the water to be purified. 3. Sorption filter for industrial wastewater treatment according to claim 1, characterized in that the lower cassette is placed on a metal stand, to which a water collection pipe for purified water is attached.

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