RU2332361C1 - Composition for neutralisation of sewage water with sediment and method of neutralisation of sewage water with sediment of sewage purification works - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: group of inventions relates to obtaining and usage of said composition for processing sewage water with sediments in sewage purification works. Inventions can be used in system of housing and communal services of cities and country settlements. For combined detoxication, bactericide processing and dehelmintisation of sewage water, containing sediment, in sewage purification works composition which contains (% mass): hydrates of sodium or potassium salts of mixture of amino acids 4-8, copper or zinc complexes of hydrates of mixture of amino acids 15-20, sodium or potassium salts of di-, tri- and tetrapeptides 2-5, alkali (sodium or potassium hydroxide) 3-4, water - remaining part, is used. In the said method of sewage water neutralisation calculation of rate of feeding composition into flow of purified water with sediment and necessary amount of composition fed is carried out according to mathematical expression given in formula of the invention. Inventions provide opportunity of detoxication, bactericide processing and dehelmintisation of sewage water at early stage of formation and consolidation of sediment, as well as increase of effectiveness due to acceleration of processes of particle sedimentation and increase of degree of their sedimentation, reduction of consolidated sediment humidity.

EFFECT: increase of effectiveness of sewage water purification.

4 cl, 6 ex

Description

The group of inventions relates to the preparation of a composition for detoxification, disinfection and deworming of wastewater with sludge in wastewater treatment plants and can be used in the housing and utilities sector of cities and rural settlements.

Domestic wastewater from cities and towns contains up to 3% of solid organic mineral sludge, which is classified as hazard class II-III waste and is a source of chemical and biological hazard due to the presence of significant amounts of heavy metal cations, pathogenic microflora and helminth eggs in it . Therefore, wastewater needs to be neutralized: detoxification (release from toxic impurities and primarily heavy metal ions), disinfection (bactericidal treatment) and deworming (extermination of helminth eggs).

Known composition for detoxification of sediments in wastewater treatment plants containing hydrates of sodium salts of amino acids, alkali and water [Friedman A.Ya. etc. Organomineral compositions based on sewage sludge from sewage treatment plants. M. Non-profit partnership “Chemical-technological scientific center”, M., 2000, p. 75-87) [1]. This known composition is the closest analogue of the proposed composition.

However, the effectiveness of this known composition is not high enough.

A known method of wastewater treatment by biothermal and biological treatment, followed by separation of sludge from water and storage of sludge on specially selected silt maps (SNiP. 2.04.03-85 "Sewerage. External networks and structures") [2].

Its disadvantage is its low detoxifying ability: sewage sludge that has undergone biothermal and biological treatment by this known method and stored on silt sites of treatment facilities continues to be biologically and chemically hazardous waste, and the water separated from the sludge must be subjected to additional chlorination before it is discharged to water complete disinfection, which increases the consumption of reagents and complicates the process.

There is a method that provides combined detoxification, disinfection (bactericidal treatment) and deworming of sewage treatment plants by sequential treatment of sewage treatment plants with a detoxifier, and then with a reagent in the form of an aqueous solution of alkali and copper or zinc complexes of hydrates of a mixture of amino acids [1].

However, the effectiveness of this method is not high enough, and the method provides for the use of expensive reagents and the need to use two reagents in series - a bactericide and a detoxifier.

A known method of disinfection of domestic wastewater with sludge ammonia-amino acid complexes of copper (II) at a flow rate of 1-3.5 mol per 1 liter of treated water [Barlyaev A.N. and other RF Patent No. 2172721 "Method for the disinfection of domestic wastewater", 1999.12.09] [3].

The disadvantage of this method is the very high consumption of an expensive reagent.

The technical result achieved by this group of inventions is the possibility of detoxification, disinfection (bactericidal treatment) and deworming of wastewater with sludge at sewage treatment plants at an early stage - at the stage of formation and compaction of sludge with the exception of the stage of depositing sludge on sludge treatment plants, simplification cheaper method, increased efficiency by accelerating the processes of sedimentation of particles, increasing the degree of sedimentation, suppressing microflora, inhibiting anija rotting and fermentation processes, reduction of moisture densified sludge, increasing the efficiency of action of flocculants treated sludge dehydration speed, reduce moisture by mechanical dewatering to ensure disinfection of all contents ilouplotnitelya.

The specified technical result is achieved in that the neutralization composition contains hydrates of sodium or potassium salts of a mixture of amino acids, copper or zinc complexes of hydrates of a mixture of amino acids, sodium salts of low molecular weight (di-, tri-, tetra-) peptides, alkali and water in the following ratio of components, wt.%:

- hydrates of sodium or potassium salts of a mixture of amino acids 4-8 - copper or zinc complexes of hydrates of the mixture amino acids 15-20 - sodium or potassium salts of di-, tri- and tetrapeptides 2-5 - alkali 3-4 - water rest

The composition may include hydrates of sodium or potassium salts of a mixture of amino acids and sodium or potassium salts of di-, tri- and tetrapeptides obtained by thermo-alkaline hydrolysis of waste containing animal proteins, and copper or zinc complexes of hydrates of a mixture of amino acids obtained by processing these hydrates with a salt solution copper or zinc in the presence of an ammonia solution.

This technical result is also achieved by the fact that in the method of combined detoxification, disinfection and deworming of wastewater with sludge, which consists in feeding the specified composition to a stream of water with sludge supplied to the sludge compactor, it is possible to control the feed rate of the specified composition and its amount required for water treatment with sludge, for which the feed rate of the purified water with sludge to the sludge compactor, the concentration of copper or zinc complexes of hydrates of the aminokis mixture hydrate are preliminarily determined from a feed composition, moisture content of the precipitate formed in ilouplotnitele during feeding treated water from the sludge, the volume ilouplotnitelya and dose copper or zinc complexes hydrates amino acid mixture, based on their concentration in said composition of 1 mol / dm ^3, fed to the 1 m ^{3 of} treated water with sludge, and the feed rate of the composition into the stream of treated water with sludge is determined based on the mathematical expression (1)

where U _reagent is the feed rate of the composition into the stream of treated water with a precipitate of m ³ / min,

U _oc - feed rate of sediment in the sludge compactor, m ³ / min,

With _set - the concentration of copper or zinc complexes of hydrates of a mixture of amino acids in the supplied composition, mol / DM ³ ,

Q ₁ - moisture content in the sediment formed in the desilter during the supply of purified water with sediment,%,

N is the dose of copper or zinc complexes of hydrates of a mixture of amino acids in terms of their concentration in the composition equal to 1 mol / DM ³ supplied in 1 m ^{3 of} treated water with sediment, DM ³ ,

and the amount of composition necessary for the treatment of water with sludge is determined based on the mathematical expression (2)

where V _react - the amount of composition required for the treatment of water with sediment, m,

N is the dose of copper or zinc complexes of hydrates of a mixture of amino acids in terms of their concentration in the composition equal to 1 mol / DM ³ supplied in 1 m ^{3 of} treated water with sediment, DM ³ ,

V _sludge - the volume of sludge compactor, m ³ ,

Q ₁ - moisture content in the sediment formed in the desilter during the supply of purified water with sediment,%,

With _set - the concentration of copper or zinc complexes of hydrates of a mixture of amino acids in the supplied composition, mol / DM ³ .

The specified composition, it is advisable to submit to the stream of purified water with sediment pump-metering.

Waste containing animal proteins, for example, solid and pasty substances formed during the processing of animal raw materials, such as wet and dry hides of fur and leather production, trimmings, waste of sorting hides, and substandard fur and leather, can be used as feedstock for preparing the components of the composition. raw materials, waste hair from ventilation and other types of collection during the initial processing of wool, fur dressing, production of valency products from natural hair, spinning of wool, we do not utilize e wastes of fluff and feathers of poultry farms, not utilized rags and trimmings in the manufacture of articles of wool, fur and leather, trapped wastes and sludge generated during the treatment of wastewater from fur, leather, meat and poultry industries, primary processing of wool, spinning and production of valency products from natural hair. Protein-containing wastes are subjected to thermo-alkaline hydrolysis to obtain hydrates of sodium or potassium salts of a mixture of amino acids - a component of the composition that plays the role of a heavy metal detoxifier. In addition, as a result of thermo-alkaline hydrolysis, sodium or potassium salts of di-, tri- and tetrapeptides are obtained - a component of composition No. 3, which acts as a buffer with a pH of 10-12. Processing of hydrates of sodium or potassium salts of a mixture of amino acids with 25% aqueous NH ₃ and an aqueous solution of a salt of copper or zinc gives copper or zinc complexes of hydrates of sodium or potassium salts of a mixture of amino acids - a component of the composition that acts as a bactericide.

The following are examples of the implementation of the invention.

Example 1. In a reactor with a capacity of 250 l, 108 l of water is loaded, 23 kg of sodium hydroxide are added in portions of 3-4 kg and then 65 kg of hair waste from the production of felted products. The steam supply valve is opened, the mass is heated until circulation begins through the pipeline supplying steam to the expansion tank-refrigerator, and through the pipeline returning condensate to the reactor. The process is carried out at a temperature of 170 ° C. When fully fed, the mass is kept in a state of circulation for 40 minutes. The steam supply to the reactor was shut off and held for 15 minutes until the circulation ceased. Shake the reactor lid, add water to a total reaction volume of 200 l and mix the mixture for 15 minutes. The reaction mass is poured through a filter into a decanter. Get 2 M aqueous solution of sodium hydrates of a mixture of amino acids with an average molecular weight of 140 and a free alkali content of 0.08 mol / DM ³ .

108 l of water are loaded into a 250-liter reactor, 15 kg of sodium hydroxide are added in portions of 3-4 kg and then 60 kg of hair waste from the production of felted products. The steam supply valve is opened, the mass is heated until circulation begins through the pipeline supplying steam to the expansion tank-refrigerator, and through the pipeline returning condensate to the reactor. The process is carried out at a temperature of 130 ° C. When fully fed, the mass is kept in a circulated state for 20 minutes. The steam supply to the reactor was shut off and held for 15 minutes until the circulation ceased. Shake the reactor lid, add water to a total reaction volume of 200 l and mix the mixture for 15 minutes. The reaction mass is poured through a filter into a decanter. Get 2 M aqueous solution of sodium salts of di-, tri and tetrapeptides with an average molecular weight of 290 and a buffer capacity of 1.5 mol / DM ³ .

115 l of a 25% aqueous solution of ammonia (density 0.906 kg / m ³ ) are loaded into a reactor with a capacity of 1 m ³ and 385 l of a 2 molar aqueous solution of copper sulfate is added at a temperature not exceeding 35-45 ° С with a metering pump and the resulting mass is mixed within 3-5 minutes Then, with stirring, add 500 l of a 1 M aqueous solution of sodium hydrates of a mixture of amino acids and 5 kg (in portions of 200-300 g) of sodium hydroxide. Get 1 m ³ 2 M aqueous solution of copper complexes of hydrates of a mixture of amino acids with an average molecular weight of 140 and the content of copper complexes of hydrates of a mixture of amino acids 1 mol / DM ³ .

A 1 m ³ 1.5 M aqueous solution of sodium hydrates of a mixture of amino acids, 0.3 m ^{3 of} 1.6 M aqueous sodium salts of di-, tri- and tetrapeptides and 4 m ^{3 of a} 1.5 M aqueous solution of copper complexes are mixed in a container hydrates of a mixture of amino acids. A composition is obtained containing, wt.%:

- hydrates of sodium salts of a mixture of amino acids - 4.0;

- copper complexes of hydrates of a mixture of amino acids - 15.0;

- sodium salts of di-, tri- and tetrapeptides - 2.0;

- alkali (sodium hydroxide) - 3.0;

- water - the rest.

Example 2. In the tank mix 1.5 m ³ 2 M aqueous solution of sodium hydrates of a salt of a mixture of amino acids, 0.3 m ³ 1.6 M aqueous solution of sodium salts of di-, tri- and tetrapeptides and 6.5 m ³ 2 M aqueous solution of copper complexes of hydrates of a mixture of amino acids.

Get a composition containing, wt.%:

- hydrates of sodium salts of a mixture of amino acids - 5;

- copper complexes of hydrates of a mixture of amino acids - 20.0;

- sodium salts of di-, tri- and tetrapeptides - 2.0;

- alkali (sodium hydroxide) - 3.0;

- water - the rest.

Example 3. In a container, mix 2 m ³ 2 M aqueous solution of sodium hydrates of a salt of a mixture of amino acids, 0.3 m ³ 1.6 M aqueous solution of sodium salts of di-, tri- and tetrapeptides and 4.7 m ³ 2 M of an aqueous solution of copper complexes of hydrates of a mixture of amino acids. Get a composition containing, wt.%:

- hydrates of sodium salts of a mixture of amino acids - 8.0;

- copper complexes of hydrates of a mixture of amino acids - 17.6;

- sodium salts of di-, tri- and tetrapeptides - 5.0;

- alkali (sodium hydroxide) - 4.0;

- water - the rest.

Example 4. The preparation of the composition is carried out as described in example 1, using potassium hydroxide instead of sodium hydroxide. Get a composition containing, wt.%:

- hydrates of potassium salts of a mixture of amino acids - 4;

- copper complexes of hydrates of a mixture of amino acids - 15.8;

- potassium salts of di-, tri- and tetrapeptides - 2.6;

- alkali (potassium hydroxide) - 3.0;

- water - the rest.

Example 5. The preparation of the composition is carried out as described in example 1, using zinc sulfate instead of copper sulfate. Get a composition containing, wt.%:

- hydrates of sodium salts of a mixture of amino acids - 4.0;

- zinc complexes of hydrates of a mixture of amino acids -15.8;

- sodium salts of di-, tri- and tetrapeptides - 2.6;

- alkali (sodium hydroxide) - 3.0;

- water - the rest.

Example 6. In the sludge collector (volume 15000 m ³ ) wastewater is fed after the first stage of treatment at a speed of 5000 m ³ / h. Sludge content in wastewater 2%. Sediment feed rate 100 m ³ / h. According to chemical analysis, the compacted sediment (moisture content 98%) contained (mg / kg dry matter): Cu - 185, Zn - 500, Ni - 144, Cr - 100, Pb - 324, Cd - 10, Co - 43. Microbiological contamination : enterococci - 10,000 cells / g, BGCP index (E. coli) - 5,000 cells / g, pathogenic microflora - 10 cells / g, helminth eggs - 10 individuals / kg. The category of sewage pollution, including sludge, is extremely dangerous. At the same time, the composition of claim 1 is introduced by the metering pump at a speed of 0.9 m ³ / min. In total, it took 135 m ^{3 of the} composition according to claim 1 to treat the sludge collector.

For the treatment of water with sludge, the necessary measurements were made and the feed rate of the composition (reagent) was calculated based on the mathematical expression (1), and the amount of composition required for the treatment of water with sludge was determined based on the mathematical expression (2).

The contact time of the composition with wastewater, including sludge, corresponds to the time spent in the sludge collector (sludge compactor) and up to 10 hours.

Chemical and microbiological analyzes of the sediment taken from the sludge compactor showed that it has a 4th hazard class and the pollution category is clean. The sludge from the sludge compactor was sent to the mechanical dewatering workshop and an organomineral composition having the smell of the soil was obtained. It does not require storage on silt cards. According to biotesting data (according to the Order of the Ministry of Natural Resources of the Russian Federation No. 522 of June 15, 2001), the organomineral composition obtained from sewage sludge is not toxic to living organisms and, in accordance with GOST R 17.4.3.07-2001, can be used to restore the productivity of disturbed lands for forestry purposes and the recreational direction of their reclamation, as well as raw materials for the production of organic fertilizers by composting and vermicomposting.

Thus, the composition and method according to the invention can improve the efficiency of wastewater treatment, speed up and simplify this process by combining the procedures of detoxification, disinfection (bactericidal treatment) and deworming in one procedure, provide the possibility of using the wastewater sludge treatment product as a valuable organomineral fertilizer .

Claims (4)

1. Composition for the treatment of wastewater with sludge, containing hydrates of sodium or potassium salts of a mixture of amino acids, copper or zinc complexes of hydrates of a mixture of amino acids, sodium salts of di-, tri- and tetrapeptides, alkali and water in the following ratio, wt.%: hydrates of sodium or potassium salts of a mixture of amino acids 4-8 copper or zinc hydrate complexes of the mixture amino acids 15-20 sodium or potassium salts of di-, tri- and tetrapeptides 2-5 alkali 3-4 water rest 2. The composition according to claim 1, characterized in that it includes hydrates of sodium or potassium salts of a mixture of amino acids and sodium or potassium salts of di-, tri- and tetrapeptides obtained by thermo-alkaline hydrolysis of waste containing animal proteins, and copper or zinc hydrate complexes of a mixture of amino acids obtained by treating these hydrates with a solution of a copper or zinc salt in the presence of an ammonia solution. 3. A method of neutralizing wastewater with sludge, which consists in feeding the composition according to claim 1 or 2 to a stream of water with sludge, supplied to the sludge compactor, which provides for controlling the feed rate of the composition and its amount necessary for treating the water with sludge, for which the speed is preliminarily determined supply of purified water with sediment to the sludge compactor, concentration of copper or zinc hydrates of a mixture of amino acids in the supplied composition, moisture content in the sediment formed in the sludge packer during the supply of purified water from the sludge m, the volume ilouplotnitelya, dose copper or zinc complexes hydrate mixture of amino acids based on their concentration in the composition of 1 mol / dm ^3, supplied to the 1 m ³ of treated water and precipitate, wherein the composition supply rate of flow of treated water to the precipitate is determined based on a mathematical expression (I)

where U _reagent is the feed rate of the composition into the stream of treated water with a precipitate of m ³ / min, U _oc - feed rate of sediment in the sludge compactor, m ³ / min, With _set - the concentration of copper or zinc complexes of hydrates of a mixture of amino acids in the supplied composition, mol / DM ³ , Q ₁ - moisture content in the sediment formed in the desilter during the supply of purified water with sediment,%, N is the dose of copper or zinc complexes of hydrates of a mixture of amino acids in terms of their concentration in the composition equal to 1 mol / DM ³ supplied in 1 m ^{3 of} treated water with sediment, DM ³ , and the amount of composition necessary for the treatment of water with sludge is determined based on the mathematical expression (2)

where V _pear is the amount of composition required for the treatment of water with sediment, m, N is the dose of copper or zinc complexes of hydrates of a mixture of amino acids in terms of their concentration in the composition equal to 1 mol / DM ³ supplied in 1 m ^{3 of} treated water with sediment, DM ³ , V _sludge - the volume of sludge compactor, m ³ , Q ₁ - moisture content in the sediment formed in the desilter during the supply of purified water with sediment,%, With _set - the concentration of copper or zinc complexes of hydrates of a mixture of amino acids in the supplied composition, mol / DM ³ . 4. The method according to claim 3, characterized in that the composition is fed into the stream of purified water with sediment by a metering pump.