RU2560436C1 - Sorbent for after-purification of biologically purified sewage waters from ions of ammonium and phosphates - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: sorbent contains sediments, obtained in the process of reagent processing of natural waters with aluminium coagulants, 20-40 wt % and montmorillonite clay 60-80 wt %.

EFFECT: possibility of effective after-purification of sewage waters from ions of ammonium and phosphates with application of sorbent from available natural and technogenic raw material.

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Description

The invention relates to the field of purification from ammonium ions and phosphates of biologically treated industrial and domestic wastewater discharged into water bodies or used in water recycling systems at chemical and other industrial enterprises.

To purify industrial and domestic wastewater from ammonium ions and phosphates, sorbents are used, consisting of various substances [US Pat. 2496722 RF, IPC C02F 1/58; US Pat. 2107040 Germany, IPC C02F 1/72; US Pat. 4137166 USA, IPC C02F 1/28].

The reasons hindering the implementation of effective and inexpensive wastewater treatment from ammonium ions and phosphates when using known sorbents or active substances include the need for high-cost reagent treatment, the complexity and long duration of the aftertreatment process, the lack of the developed ability to separate the formed sludge and their disposal, a significant residual concentration of ammonium ions and phosphates in the treated water.

A known method of purification of wastewater from ammonium ions [Pat.2253626 RF, IPC C02F 1/76] using the following substances: 20% solution of hydrochloric acid and an oxidizing agent, which is used as clarified wastewater of gas treatment plants formed during the purification of chlorinated gas with lime milk . It is indicated that the degree of wastewater treatment from ammonium ions ranges from 83.10% to 99.68%. However, a solution of hydrochloric acid and the specified oxidizing agent are not widely available for use in a production environment, which complicates the use of these substances as a means of post-treatment of wastewater. In addition, these substances do not provide post-treatment of wastewater from phosphates.

A known method of wastewater treatment from phosphates [US Pat. 2496722 RF, IPC C02F 1/58] using the following substances: 10% suspension of calcium hydroxide in an amount stoichiometrically equal to the phosphate content in water (1.94 wt. Ca for 1 wt. P), and cellulose dispersed in water fibers, of which not less than 94 wt. % of the fibers has a length of up to 1.23 mm and at least 54 wt. % of fibers has a length of up to 0.63 mm. The consumption of these substances during wastewater treatment ranges from 40 to 150 mg / dm ³ with the formation of solid purification products in the form of a composite material consisting of Ca ₃ (PO ₄ ) ₂ and cellulose. The removal of solid purification products from the purified water is carried out by pressure flotation with the formation of flotation sludge. It is indicated that no phosphates are found in purified water. The disadvantages of using these substances in industrial wastewater treatment are the relative cost and complexity of the implementation of the described method, as well as the lack of purification of wastewater from ammonium ions.

The closest in essence and the achieved result to the proposed sorbent is a sorption-filter load [US Pat. 2109695 RF, IPC C02F 9/00], consisting of a sand sorbent and an adsorbent Fe (OH) ₃ , differentiated by the ability to target pollutants: for the extraction of suspended solids and organic pollutants, a carbon-containing sand sorbent is used - limestone shell rock or graphitized coke with grain size of 1.5 mm, for the extraction of ammonium ions - cation exchange resin, which is used clinoptilolite with a grain size of 0.7-1.0 mm, for the extraction of phosphates - aluminum hydroxide with grain sizes of 0.5 mm. It is indicated that the efficiency of the post-treatment of wastewater from ammonium ions using this sorption-filter charge ranges from 92.00% to 95.00%, from phosphates 95.0-99.0%. As a result, the quality of purified water for ammonium ions (0.15-0.49 mg / dm ³ ) is consistent, and for phosphates (0.003-0.18 mg / dm ³ ) does not always meet the regulatory requirements for the composition of treated wastewater discharged into water bodies (MPC.x of ammonium ions 0.5 mg / dm ³ , phosphates 0.05 mg / dm ³ ).

The use of relatively expensive natural and synthetic materials due to their limited availability of natural and synthetic materials, as well as the difficulty of preparing the mixture due to the large number of its components and the need to mix the mixture components in a limited size range, impedes the efficient and low-cost wastewater treatment using this sorption-filter load. grains. In addition, an additional disadvantage of this mixture is the need to use its washing with the formation of contaminated wash water, which also requires cleaning.

The technical problem to be solved when using the proposed sorbent is to simplify and reduce the cost of the treatment of biologically treated industrial and domestic wastewater from ammonium ions and phosphates with a decrease in the residual concentrations of these components to standard values while maintaining the remaining indicators of cleaning efficiency at the initial level. New results when using the proposed sorbent are the elimination of the need for regeneration of the load, providing the ability to dispose of the spent material loading resource-saving and non-polluting environment.

The technical result is achieved by the fact that it is proposed to use inexpensive materials as components of the sorbent, which can be made from available natural and technogenic raw materials: clays of the predominantly montmorillonite group, widely distributed in nature, and precipitates formed during the reagent treatment of natural waters with coagulants based on aluminum salts .

These components of the sorbent are taken in the following proportions, wt. %:

clay 60-80 sludge treatment 20-40

Precipitation of water treatment resulting from the operation of treatment facilities for drinking water supply is a widespread large-tonnage production waste. Precipitation in its bulk is represented by finely dispersed clay components and, due to technological processing, has an increased content of calcium and magnesium compounds compared to the composition of natural clays, which makes it possible to use, in addition to physical sorption, the chemisorption properties of the manufactured sorbent, which are realized for the extraction of phosphates from wastewater.

The total process of removing phosphates from the treated wastewater occurs due to reactions according to the following equations:

The ion-exchange ability of clay rocks of the montmorillonite group, showing the sorption properties of the cationic type, allows the most efficient extraction of ammonium ions from wastewater. The achieved quality of purified water in terms of ammonium ions (0.24-0.27 mg / dm ³ ) and phosphates (from values below the detection limits to 0.22 mg / dm ³ ) meets the regulatory requirements for the composition of treated wastewater used in recycling systems water supply (the content of ammonium ions is not more than 0.5 mg / dm ³ , phosphates not more than 2.0 mg / dm ³ ).

A sorbent made from the proposed substances has a long filter cycle at low concentrations of the adsorbent.

The optimal content of precipitation of water treatment in the composition of the sorbent material is 20-40 wt. % With a decrease in their content of less than 20 wt. % significantly reduces the efficiency of wastewater treatment from phosphates, and with an increase of more than 40 wt. % decreases the efficiency of purification from ammonium ions.

The proposed sorbent, consisting of production waste and natural raw materials, which is in most cases available for enterprises, is recommended to be disposed of by using it as a component of soil soils saturated with ammonium and phosphates used for landscaping urban areas, afforestation, reclamation of disturbed lands and other purposes.

The advantage of the proposed sorbent is that it does not require washing, it has a low cost, is versatile, easy to use equipment, can be disposed of in a resource-saving and environmentally friendly way.

At the filing date, according to the authors, the proposed sorbent for the purification of biologically treated industrial and domestic wastewater from ammonium ions and phosphates, consisting of precipitation of water treatment and clay at a certain ratio of these components, is unknown.

The effectiveness of the proposed sorbent for the purification of biologically treated industrial and domestic wastewater from ammonium ions and phosphates, as well as the need for the stated conditions to achieve the goal is illustrated by the following examples.

Example 1. Wastewater, biological treatment, composition: suspended solids 24.5 mg / DM ³ ; ammonium ions 6.93 mg / dm ³ ; phosphates 3.8 mg / dm ³ ; petroleum products of 0.095 mg / dm ^{3 were} passed through the proposed sorbent, the filtration rate of 1 m / h The sorbent was prepared by mixing to a homogeneous mass of precipitation water treatment chemical composition, wt. %: Al ₂ O ₃ (3.79), Fe ₂ O ₃ (5.09), CaO (28.61), MgO (7.41), with clay of chemical composition, wt. %: SiO ₂ (64.5-66.1), Al ₂ O ₃ (20.9-22.1), TiO ₂ (0.6-0.8), Fe ₂ O ₃ (4.0-4 5), CaO (3.1-3.5), MgO (1.6-2.1), K ₂ O (0.4-0.3), Na ₂ O (0.2-0.3 ) The content of precipitation of water treatment in the sorbent material was 20 wt. % clay 80 wt. % The degree of wastewater treatment from ammonium ions was 96.5%, from phosphates 90.8%.

Example 2. The process is carried out as in example 1, the difference was that these components are taken in the following proportions: clay 70 wt. %, precipitation of water treatment 30 wt. % The degree of wastewater treatment from ammonium ions was 96.2%, from phosphates 93.3%.

Example 3. The process is carried out as in example 1, the difference was that these components are taken in the following proportions: clay 60 wt. %, precipitation of water treatment 40 wt. % The degree of wastewater treatment from ammonium ions was 96.1%, from phosphates 97.9%.

Example 4. The process is carried out as in example 1, the difference was that these components are taken in the following proportions: clay 50 wt. %, precipitation water treatment 50 wt. % The degree of wastewater treatment from ammonium ions was 94.8%, from phosphates 97.9%.

Example 5. The process is carried out as in example 1, the difference was that these components are taken in the following proportions: clay 90 wt. %, precipitation of water treatment 10 wt. % The degree of wastewater treatment from ammonium ions was 96.7%, from phosphates 88.7%.

In all examples, the content of suspended solids and oil products in purified water is below the detection limits. The table shows the results of the wastewater treatment carried out according to examples 1-5.

Claims (1)

Sorbent for extracting ammonium ions and phosphates from the treated water, characterized in that the sorbent contains precipitates formed during the reagent treatment of natural waters with coagulants based on aluminum oxide, and clay of the montmorillonite group in the following ratio, wt. %: clay - 60-80, precipitation formed during the reagent treatment of natural waters with coagulants based on aluminum oxide, - 20-40.