RU2469958C1 - Composition for wastewater purification - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: composition of wastewater purification includes sorbent, coagulant based on chlorides of iron, aluminium, mineral complex based on alkaline ashes and polyakryl amide. Content of mixture of oxides of alkali earth metals CaO+MgO in mineral complex constitutes not less than 40%. As sorbent used is oxidised or extended crystalline or cryptocrystalline graphite with the following content of components in composition, wt %: sorbent 10-20, coagulant 15-30, polyakrylamide 1-5, mineral complex based on alkaline ashes - the remaining part. In preferable version of composition ratio of mixture of alkali earth metals CaO and MgO in mineral complex constitutes 3:1.

EFFECT: increased efficiency of wastewater purification.

2 cl, 3 tbl

Description

The invention relates to the treatment of waste water and can be used to treat waste water containing metal ions and oil products.

A known composition for purifying water from suspended particles stabilized by the introduction of coagulants - aluminum and iron salts, lime [Guide to ore dressing. M., "Nedra", 1974, v.2. part II.].

The disadvantages of this method are the large amount of sludge generated, the low degree of purification of waste water from a high content of heavy metal ions and suspended particles, as well as the long duration of the process.

Closest to the claimed composition is the composition of the adsorption-coagulating mixture [RU 2004104005 A, July 27, 2005, formula], which may include sorbents from a number of carbon (activated carbon, graphite, etc.) or aluminosilicate (eg, bentonite), alkaline salts metals (potassium, sodium, etc.) and a coagulant (iron (III) chloride, aluminum chloride, etc.).

The disadvantage of this method is the low degree of purification as a result of a sharp decrease in pH during the purification process, which reduces the sorption of metal ions, suspended particles and oil products on the sorbent and coagulation products.

The objective of the invention is to increase the efficiency of cleaning from a high content of metal ions and oil products.

This is achieved by the fact that the composition for treating waste water containing metal ions and oil products, including a sorbent, a coagulant based on iron and aluminum chlorides, a mineral complex based on alkaline ash, it additionally contains polyacrylamide, and the content of a mixture of alkaline earth metal oxides CaO + MgO in the mineral complex is at least 40%, while oxidized or expanded crystalline or cryptocrystalline graphite is used as a sorbent with the following components, wt.%:

Sorbent 10-20

Coagulant 15-30

Polyacrylamide 1-5

Mineral complex based on alkaline ash - the rest, with a mixture of oxides in it CaO + MgO not less than 40%.

The ratio of the mixture of alkaline earth metal oxides CaO and MgO in the mineral complex is 3: 1.

The proposed composition of the coagulation-sorption mixture is non-toxic during use and has the ability to maintain functional properties during long-term storage.

The use of oxidized, expanded crystalline or cryptocrystalline graphite, less than the specified amount in the coagulation-sorption mixture, does not contribute to the effective treatment of waste water. The use of graphite in a mixture in an amount greater than the specified amount is not economically feasible, since there is no further increase in the degree of purification of waste water.

As a mineral complex, a mixture of alkaline ash obtained by burning coal or wood sawdust with a total content of alkaline earth oxides CaO + MgO in their composition of at least 40% is used. The chemical composition of the ashes was evaluated by x-ray spectral method.

Table 1. The elemental composition of ash,% Element Sro Pbo Zno Cu ₂ O Nio Fe ₂ O ₃ MnO CaO MgO K ₂ O SO ₂ SiO ₂ Al ₂ O ₃ Coal ash 1.00 0.05 0.02 0.01 0.003 4.0 0.06 21.6 7.2 0.2 0.7 16 19,4 Wood ash 0.024 0,054 0,087 0,022 0,038 6.3 0.5 19.6 6.5 1.7 2.1 1,2 11.3

The mineral complex is introduced into the mixture to adjust the alkalinity of the wastewater during treatment. During the joint mixing of the coagulation-sorption mixture and the waste water, a number of physicochemical reactions take place: dissociation of iron (III) chloride, hydrolysis of iron, processes of transition of alkaline earth metal ions from the mineral complex, sorption processes, and others that contribute to the effective purification of water. The effective hydrolysis of coagulants substantially depends on the alkalinity of the wastewater. The transition of alkaline earth metal ions during the cleaning process will increase the alkalinity of water and thus intensify the cleaning process.

Polyacrylamide combines small particles of the dispersed system into larger ones under the influence of adhesion forces with the formation of coagulation structures, which leads to the precipitation of a flocculent precipitate from the colloidal solution, which improves the efficiency of wastewater treatment.

The advantages of using a composition based on the mineral complex are that it uses industrial waste (for example, ashes of thermal power plants), which significantly reduces the cost of the composition itself and improves the environmental situation around the thermal power plants.

The cleaning efficiency was evaluated by the content of sludge, as well as by the content of ions of heavy metals and petroleum products.

The content of suspended particles in water was determined by the gravimetric method, oil products - by spectrometric method on a KN-2 device. The metal content in the background solution of industrial water before and after purification was determined by the atomic adsorption method on a C-115 model single-beam spectrophotometer.

Tables 2 and 3 show the results of specific examples.

For cleaning, the waste water of the MMD-12 washer was used. The temperature of the waste water was 70-80 ° C, pH = 12-14, the color is dark brown.

After treatment, the wastewater under optimal conditions had a pH = 6-7 (which corresponds to a neutral environment), their temperature was 20 ° C, the color was transparent. In all other cases, the color of the water changed from light yellow to light brown, and pH ranged from 5 (which is typical for acidic waters) to 9 (which is typical for alkaline waters).

Table 2. Characteristics of wastewater treatment (coagulation-sorption composition No. 6 from table 3 was used for purification) The indicator, mg / l Before purification, mg / L After purification, mg / l Iron (Fe ²⁺ ) 35-75 2-4 Zinc 2.0-53.5 not found Nickel Up to 2 not found Copper 1,5-2 not found Manganese Up to 1.00 not found Chromium Up to 5.0 not found Potassium Up to 21.0 not found Lead Up to 8.5 not found Oil products Up to 15000 Up to 10.0 Suspended particles Up to 30,000 Up to 45 Alkalinity Index (pH) fourteen 7-7.5 Solution color Dark cinnamon Transparent colorless raster

Table 3. The degree of water purification using the features of the invention characterizing the claimed composition. N p / p Mixture The degree of water purification,% structure name content,% one 2 3 four one Sorbent (oxidized graphite) 10 Coagulant (FeCl ₃ , AlCl ₃ ) fifteen 82 Polyacrylamide one Mineral complex 74 2 Sorbent (oxidized graphite) twenty Coagulant (FeCl ₃ , AlCl ₃ ) thirty 86 Polyacrylamide 5 Mineral complex 45 3 Sorbent (oxidized graphite) 5 Coagulant (FeCl ₃ , AlCl ₃ ) 10 70 Polyacrylamide 0.5 Mineral complex 84.5 four Sorbent (oxidized graphite) 25 Coagulant (FeCl ₃ , AlCl ₃ ) 35 78 Polyacrylamide 10 Mineral complex thirty 5 Sorbent (expanded graphite) 10 Coagulant (FeCl ₃ , AlCl ₃ ) fifteen 85 Polyacrylamide one Mineral complex 74 6 Sorbent (expanded graphite) twenty Coagulant (FeCl ₃ , AlCl ₃ ) thirty 90 Polyacrylamide 5 Mineral complex 45 7 Sorbent (expanded graphite) 5 Coagulant (FeCl ₃ , AlCl ₃ ) 10 80 Polyacrylamide 0.5 Mineral complex 84.5 8 Sorbent (expanded graphite) 25 Coagulant (FeCl ₃ , AlCl ₃ ) 35 82 Polyacrylamide 5 Mineral complex 40 9 Sorbent (cryptocrystalline graphite) 10 Coagulant (FeCl ₃ , AlCl ₃ ) fifteen 75 Polyacrylamide one Mineral complex 74 10 Sorbent (cryptocrystalline graphite) twenty Coagulant (FeCl ₃ , AlCl ₃ ) thirty 81 Polyacrylamide 5 Mineral complex 45 eleven Sorbent (cryptocrystalline graphite) 5 Coagulant (FeCl ₃ , AlCl ₃ ) 10 68

Polyacrylamide 0.5 Mineral complex 84.5 12 Sorbent (cryptocrystalline graphite) 25 Coagulant (FeCl ₃ , AlCl ₃ ) 35 59 Polyacrylamide 10 Mineral complex thirty 13 Sorbent (cryptocrystalline graphite) fifteen Coagulant (FeCl ₃ , AlCl ₃ ) twenty Polyacrylamide 3 35 Mineral complex (with a ratio of CaO and MgO 1: 1) and a content of a mixture of oxides in the composition of the mineral complex 45% 62 fourteen Sorbent (cryptocrystalline graphite) fifteen Coagulant (FeCl ₃ , AlCl ₃ ) twenty Polyacrylamide 3 twenty Mineral complex (at CaO + MgO at a ratio of CaO and MgO 3: 1) and the content of the mixture of oxides in the complex is 20%. 62 fifteen Sorbent (cryptocrystalline graphite) fifteen Coagulant (FeCl ₃ , AlCl ₃ ) twenty Polyacrylamide 3 fifty Mineral complex (at CaO + MgO at a ratio of CaO and MgO 3: 4) and the content of the mixture of oxides in the complex is 40%. 62 Note. In examples 1-12, a mineral complex is used with a CaO + MgO 3: 1 content in its composition and an oxide mixture content of more than 40% in the complex.

The proposed method eliminates the use of classical equipment for such cleaning - hydrocyclones, electrocoagulators, sedimentation tanks. The method is carried out in one operation in existing working tanks or sumps and allows the use of domestic waste, which significantly reduces the cost of the cleaning process. Coagulation-sorption mixture without additional regeneration, depending on the degree of contamination, can be used up to 5 times.

Claims (2)

1. Composition for treating waste water containing metal ions and oil products, including a sorbent, a coagulant based on iron and aluminum chlorides, a mineral complex based on alkaline ash, characterized in that it additionally contains polyacrylamide, and the content of a mixture of alkaline earth metal oxides CaO + MgO in the mineral complex is at least 40%, while oxidized or expanded crystalline or cryptocrystalline graphite is used as a sorbent with the following content of components, wt.%:
Sorbent 10-20
Coagulant 15-30
Polyacrylamide 1-5
The alkaline ash-based mineral complex is the rest, with a mixture of oxides in it CaO + MgO of at least 40%. 2. The composition for treating waste water containing metal ions and oil products according to claim 1, characterized in that the ratio of the mixture of alkaline earth metal oxides CaO and MgO in the mineral complex is 3: 1.