RU2748331C1 - Method for waste water treatment - Google Patents

Abstract

FIELD: water treatment.SUBSTANCE: invention relates to the area of separation of heterogeneous media, namely suspensions, resulting in sludge as a target product, and can be used in the coal mining, coal and chemical, mining, food, chemical industries in waste water treatment. After the stage of primary settling, natural calcium carbonate crushed to a size of no more than 20 mcm is introduced into the waste water in the amount of 10 to 70 g/m3. Biological treatment and secondary settling are then conducted resulting in sludge.EFFECT: method ensures increased efficiency of the municipal waste water decontamination process and improved quality of the sludge formed in the process of water treatment for further processing, utilization and possible use thereof in various areas of the national economy.2 cl

Description

The invention relates to the field of separation of heterogeneous media, namely suspensions, with precipitation as a target product and can be used in the coal mining, coal chemical, mining, food, chemical industries, in wastewater treatment.

Known (RU, patent 2719832, publ. 04/23/2020) a method for treating silicon-containing wastewater. The method includes the following stages: the silicon-containing wastewater is brought into contact with at least one acid or at least one alkali, so that at least part of the silicon elements in the silicon-containing wastewater form a colloid, to obtain a mixture containing the colloid; the mixture containing the colloid obtained earlier is subjected to solid-liquid separation to form a silicon-containing solid phase and a first liquid phase; the pH of the first liquid phase is adjusted to 8 or more, and CO ₃ ² and / or Ca ²⁺ are introduced into the first liquid phase so that at least some of the metal elements in the first liquid phase form a precipitate; the mixture obtained earlier is subjected to solid-liquid separation to form a solid phase and a second liquid phase; at least part of the second liquid phase is subjected to electrodialysis to form an acidic solution, an alkaline solution and / or demineralized water, said electrodialysis being standard electrodialysis and bipolar membrane electrodialysis in series.

The disadvantage of this method is its narrow scope.

It is known (RU, patent 2634022, publ. 23.10.2017) a method for purifying wastewater from ammonium perchlorate, including passing contaminated water through an adsorber made in the form of six sections, the 2nd and 3rd of which are filled with ion-exchange resin of the KU-1 brand , and the 1st section is filled with activated carbon of the AG-3 brand, the 4th, 5th and 6th sections - with ion-exchange resin of the AN-31 brand, while the cleaning is carried out at a pH of 6-7.

The disadvantage of this method is its narrow scope.

It is known (RU, patent 2515859, publ. 05/20/2014) a method for treating industrial wastewater discharged from any chemical plant, oil refinery and petrochemical plant containing an organic compound, while this method includes: a pre-treatment stage, at which the plant the wastewater is fed into an oxygen-free tank, nitrogen and phosphorus containing compounds are added to the plant wastewater, anaerobic biological treatment of the plant wastewater is carried out, and the thus treated plant wastewater is discharged as pretreated water; the stage of primary treatment, in which the pretreated water is supplied to the tank for anaerobic biological treatment, anaerobic biological treatment of the pretreated water is performed, while the organic compound is decomposed into organic compounds with smaller molecules and a gaseous mixture containing methane and carbon dioxide, and the treated thus water as primary treated water; a secondary treatment stage, in which the primary treated water is supplied to an aerobic biological treatment tank, aerobic biological treatment of the primary treated water is performed, and the thus treated water is discharged through a solid-liquid separation device as secondary treated water; and a tertiary treatment stage, in which at least part of the secondary treated water is fed to the membrane separation separator by the reverse osmosis method and separating the part of the secondary treated water into water penetrating through the reverse osmosis membrane and brine concentrated by the reverse osmosis method, where at least part the concentrated brine by reverse osmosis is recycled to the oxygen-free tank.

The disadvantage of this method is its narrow scope, as well as complexity.

Known (RU, patent 2482068, publ. 05/20/2013) a method of water purification. According to the known method, surface-reacted natural calcium carbonate is brought into contact with water to be purified, where surface-reacted natural calcium carbonate is a reaction product of natural calcium carbonate with acid and carbon dioxide formed in situ during acid treatment and / or coming from an external source, and surface-reacted natural calcium carbonate prepared in the form of an aqueous suspension with a pH greater than 6.0, measured at 20 ° C, and a polymeric flocculant is added to the purified water after the surface-reacted natural calcium carbonate is added.

The disadvantage of this method is its complexity.

The technical problem solved using the developed method is to optimize the process of municipal wastewater treatment.

The technical result achieved by the implementation of the developed method consists in increasing the efficiency of the process of cleaning municipal wastewater from pollution and improving the quality of the sludge formed during the water purification process for its subsequent processing, disposal and possible further use in various areas of the national economy.

To achieve the specified technical result, it is proposed to use the developed method of wastewater treatment. The developed method includes the interaction of the treated wastewater with an alkaline earth metal carbonate, moreover, after the stage of primary settling of wastewater, crushed natural carbonate of an alkaline earth metal is introduced into the wastewater, then biological treatment and the stage of secondary sedimentation are carried out to obtain a sludge,

In a preferred embodiment of the developed method, the natural alkaline earth metal carbonate crushed to a size of not more than 20 microns is introduced in an amount of 10-70 g / m ^{3 of} waste water, and usually calcium carbonate is used, although magnesium carbonate can also be used.

Also, in a preferred embodiment of the developed method, crushed alkaline earth metal oxide is additionally introduced into the resulting precipitate. Calcium oxide is commonly used.

The developed method was tested in MUP Vodokanal, Podolsk. MUP "Vodokanal" provided for testing one line of treatment facilities (line 3), consisting of aeration tanks and secondary sedimentation tanks. The reagent, crushed calcium carbonate, was used on this line for four weeks by introducing it into the pipeline leading from the primary clarifiers to a dedicated biological treatment aeration tank. Three other lines of cleaning and settling (Nos. 1, 2 and 4) functioned as usual. Based on the productivity of the water treatment line of about 26 thousand m ³ / day and the recommended dose of the reagent 50 g / m ³ , a total of 37 tons of reagent were introduced at intervals of 2 tons per working day. The unloading was carried out directly from the big-bag into the open hole of the pipeline at a rate of about 1 ton in 30 minutes.

According to the established schedule, Vodokanal personnel carried out regular monitoring and analysis of the state of water and activated sludge (including sampling and analysis) in the dedicated water treatment line and in lines not used for testing.

The pH values in wastewater during the test were neutral, about 7-7.5, which excluded the manifestation of a buffering effect. Accordingly, a consistently high water alkalinity was observed in all water treatment lines. Thus, the degree of dissolution of the product, as expected, turned out to be rather low - about 10% of the reagent was dissolved. This is confirmed by the data of the results of analyzes for dissolved calcium (using a flame photometer JENWAY), which indicate that the concentration of Ca ²⁺ in the wastewater of the settling tanks increased by 5-10 mg / l compared to the concentration in the water at the entrance to the treatment plant.

It should be noted that a slight decrease in the calcium concentration in the water of the sedimentation tanks of the 3rd and 4th lines during the test period may be associated with an increase in the water temperature from 18 to 21 ° C leading to a decrease in the solubility of calcium carbonate.

It is also important that the water supply of the city of Podolsk comes from a limestone aquifer, therefore, probably, wastewater is also close to saturation in relation to calcium carbonate.

The most significant improvements were noted in the physical properties of the treated water and activated sludge.

Thus, the amount of suspended solids in the sedimentation tanks of line 3 significantly decreased from 18 mg / l to 6 mg / l after the first week of testing and was further maintained below the maximum permissible norms (12 mg / l), in contrast to lines that did not use calcium carbonate ...

The sludge index in the aeration tank of experimental line 3 significantly decreased when using the reagent calcium carbonate from the usual 200-250 ml / g to 119 ml / g. The sludge index of other lines that were not treated with the reagent also decreased, since, as a result, the product entered the suspension with water returned from the sludge dewatering process. Thus, the sludge index in line 3 was at least 26% lower than in untreated lines, as expected by the purpose of the experiment.

The ash content of the sludge in the aeration tank of line 3 increased markedly compared to other lines during the test period. This effect was quite expected, although higher values could be expected with such a small amount of dissolved calcium carbonate (about 10%).

Additionally, it can be noted that the addition of a reagent - crushed calcium carbonate - made it possible to stop bioflotation - the formation of a thick foam coat on the surface of the anoxide zone of the aeration tank associated with the attachment of light sludge suspensions to floating gas bubbles. So in line 3, treated with the reagent, only a light foam was observed, in contrast to neighboring aeration tanks covered with a fur coat of sludge as a result of bioflotation accompanying the denitrification process. From this visual effect, one can judge a noticeable improvement in the normalization of biological treatment processes in an aeration tank with an experimental reagent.

The test on the use of the reagent - and crushed calcium arbonate in municipal wastewater treatment was stable, and no side and unwanted effects were noticed.

Low content of ammonium nitrogen in wastewater, high alkalinity and near neutral pH values of the water resulted in low dissolution of the product. Nevertheless, it was revealed that the use of crushed calcium carbonate contributed to the improvement of the biological treatment process in the aerotank by suppressing the bioflotation of sludge. The product can help to normalize the operation of the aeration tank, especially in winter, when the nitrification process is less effective, as well as in spring and autumn, with high hydraulic loads and the risk of overflowing a thick foam coat.

The main effect was observed in the process of sedimentation of sludge flakes in the secondary clarifiers. A decrease in the sludge index in the aeration tank contributed to a decrease in the removal of suspended solids at the outlet from the secondary sedimentation tanks during the hours of maximum inflow. The heavier sludge in the secondary clarifier leads to a decrease in turbidity and the amount of suspended matter, accelerated sedimentation, more efficient removal and, as a result, the retention of the required dose of activated sludge in aeration tanks, which, in turn, leads to an increase in the reliability of the biological unit during stress periods of high hydraulic load. ... This will also lead to a decrease in BOD due to the dose of activated sludge, and, consequently, a decrease in the payment for the negative impact of under-treated wastewater. Savings are possible on the use of a flocculant, which can be seen from a noticeable decrease in the moisture content of the sludge taken from the secondary clarifiers at the stage of dewatering during sludge compaction. The mixing and settling quality of the sludge-sludge mixture is also improved, since the formation of water lenses in the sludge compactors is prevented. The moisture content of the sediment decreased to 96-97%, which led to the minimization of the amount of suspended solids in the returned water. Additionally, with a denser sediment, the efficiency of its removal by scrapers from sedimentation tanks increases.

Claims (2)

1. A method of wastewater treatment, including their interaction with calcium carbonate, subsequent biological wastewater treatment, primary and secondary sedimentation, characterized in that after the stage of primary sedimentation, natural calcium carbonate, crushed to a size of no more than 20 microns, is introduced into the wastewater in an amount of 10 -70 g / m ³ , then biological treatment and secondary sedimentation are carried out to obtain a sediment. 2. The method according to claim 1, characterized in that crushed calcium oxide is additionally introduced into the resulting sediment.