SU1691322A1 - Method for biochemical treatment of effluents - Google Patents

Abstract

The invention relates to water treatment methods, can be used in the biochemical treatment of municipal and industrial wastewater, and allows increasing the performance of aeration tanks, ensuring a high degree of purification, eliminating the loss of mutants, and increasing the stability of the cleaning process. Wastewater treatment is carried out in an aerotank in the presence of mutated activated sludge obtained in an inoculum plant during treatment with a nitrosomethylurea solution. The method makes it possible to increase the productivity of aerotanks by 5 times, the second to reduce the aeration period, to reduce the consumption of mutagen by more than 4 times and to stabilize the cleaning process. 1 hp f-ly, 3 tab.

Description

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The invention relates to water treatment methods and can be used in the biochemical treatment of municipal and industrial wastewater.

The aim of the invention is to increase the performance of the aerotank while ensuring a high degree of purification, to eliminate the loss of mutants and to increase the stability of the purification process.

Wastewater treatment in the aeration tank is carried out in the presence of mutated activated sludge obtained in an inoculum unit when treated with a solution of nitrosomethylurea.

For the implementation of the method sludge from the production aerotank after pre-filtering to remove protists, rotifers and other fauna in an amount of 10% of the total

The volume of activated sludge is introduced into the installation inoculum, where it is treated with a 0.01% solution of mutagen-nitrosomethylurea. The treatment is carried out in a buffer solution at pH 6 for 4 hours. Unreacted mutagen is inactivated with an alkali solution to prevent it from entering the production aeration tank. Sewage water from the production aerotank is fed to the averaging tank, and from there to the installation inoculant. A biocenosis with increased biochemical activity is formed in the plant under the influence of a mutagen. The level of increased activity of the newly formed biocenosis can be from 20 to 100 with the frequency of occurrence of active mutants. Depending on the level of increase in activity and increase in the degree of purification, the accumulation time of mutants is 5-30 days.

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After the time required for the accumulation of mutants, sludge from the inoculum installation in the amount of 2/3 of the total volume of mutated sludge is diverted to the production aeration tank at the place of intake of waste water, since organic loads are required for the normal functioning of the mutated sludge autoselection

The remaining sludge in the inoculum installation is increased and excess sludge is daily diverted to the production aeration tank as feed, which ensures high efficiency and stability of the cleaning process.

Example. The experimental semi-production unit, the installation-inoculator of activated sludge is mounted for the independent section of the Krasnoyarsk wastewater treatment plant with a capacity of 16330 m. Installation volume inoculum torus 1.5 m. Sludge, taken from the second corridor of the production aerotanks, is treated. Preconcentrated activated sludge in the amount of 10 vol.% Is placed in the empty aerotank of the installation-inoculant. The pH is adjusted to 6. with a KOH solution. A 0.01% solution of nitrosomethylurea in phosphate buffer with a pH of 6 is prepared and introduced into the aeration tank of the inoculum unit. Stirring is carried out with air. The exposure time is 4 hours, after which the mutagen is inactivated. Then include the flow of waste water. Sewage water into the averaging tank is supplied from the switchboard of the sewage treatment plant using an air-lift system. From the averaging tank, the waste water enters the head of the aerotank of the installation-inoculum. Return sludge from the settling tank of the installation — the inoculum of the torus is also fed there. The sludge mixture is fed by gravity into the sump installation. Excessive activated sludge is diverted to the main canal of waste water from industrial aeration tanks.

16 days after the treatment of the activated sludge by mutagen in the installation inoculant, the accumulation of active mutants takes place, after which 2/3 of the volume of activated sludge (1200 l with a dry weight of 3.1 g / l - 3.7 kg) is fed to the production aerotank.

During the control period, the COD of incoming water averaged 250 mg / l, mg / l, the amount of oil products — 2.5 mg / l, ALCS — 1.95 mg / l, nonionic surfactant — 3.2 mg / l. Activated sludge concentration 2.3 g / l. Aeration time 6.6 h, average discharge water flow 58800 m3 / day. COD load 550 mg / l of activated sludge per day.

The COD of purified water is 100 mg / l, the purification efficiency of COD is 63%, BPCb is 14 mg / l, suspended solids - 17 mg / l. The cleaning efficiency for oil products is 72%, for detergents - 74%, nonionic surfactants - 28%.

The choice for processing in the inoculum plant of 10% by volume of activated sludge is due to the fact that this value represents the optimal volume at which rapid formation takes place — auto-selection of active sludge.

A nitrosomethylurea concentration of 0.01% is the minimum concentration that is sufficient to carry out the mutation process. Maximum

5 possible concentration of nitrosomethylurea is due to the permissible value of the MPC of this compound in water.

The parameter related to the volume of mutated activated sludge introduced from the installation-inoculant to the production aeration tank - 2/3 of the processed activated sludge - provides the speed necessary for the cleaning process to displace the original activated sludge from

5 aerotank, and 1/3 activated sludge remaining in the inoculum installation after a short time begins to function, produce excess sludge, which serves as a make-up,

0 In the table. 1 presents a comparative data on the consumption of mutagen by the proposed and known methods, in table. 2 - technological parameters of one section of the aerotanks of the first and first stages of the right bank

5 treatment facilities of Krasnoyarsk, in table. 3 - comparative data on the effectiveness of the process for the purification of acetone effluents (Example 1), effluents containing high concentrations of organic and toxic substances (aniline dyes, chromium salts, FURFURola, Example 2), according to known and proposed methods.

Claims (2)

01. A method of biochemical treatment of wastewater in an aerotank with activated sludge treated with a chemical mutagen, nitrosomethyl urea, characterized in that, in order to increase aerotank production, while maintaining a high degree of purification, eliminating the loss of mutants and increasing the stability of the purification process, processing active The sludge is carried out in a plant-inoculum for the time required for the autoselection of mutants, after which the processed sludge in the amount of 2/3 of its volume is fed to the aeration tank, and the remaining sludge is consumed. raschuvat and served in the aeration tank daily as feed. 2. A method according to claim 1, characterized in that activated sludge is treated in an inoculum in an amount of 10% by volume, and nitrosomethylurea is used as a 0.01% solution. Table Table 2