SU659531A1 - Method of multistage biochemical purification of waste water - Google Patents

Description

one

The invention relates to the field of biochemical purification of domestic and industrial wastewater and can be applied to the purification of wastewater containing organic substances in the dissolved, colloidal and finely dispersed state.

The known method of two-stage biochemical wastewater treatment in which part of the circulating activated sludge after the second-stage secondary clarifier is fed to the first stage, and the rest of the sludge to the second stage 1.

There is also known a method of two-stage wastewater treatment, in which part of the circulating sludge is displaced with the wastewater entering the first stage 2 before being supplied to the first and second stages.

The immediate solution of the task is a method of multi-stage biochemical treatment of wastewater in aeration tanks. The waste water enters the first stage aeration tank, where part of the contaminants are removed from it. The activated sludge is separated in the secondary clarifier and then returned to the first stage aeration tank. The same happens in the aerotanks of the second and post-stages. In each stage of treatment, circulating activated sludge makes a closed cycle without displacing with the silts of the other stages 3.

The disadvantages of this method include the long duration of aeration; the deterioration of the properties of activated sludge as a result of a lack of nutrients in the aeration tanks of the second and subsequent stages; high air consumption for aeration.

The object of the present invention is to increase the cleaning efficiency.

This goal, according to the invention, is achieved by the described method, in which active sludge after

5 of the first purification stage is directed to regeneration and fed to the last stage, and then successively to all purification stages in the direction of increasing the concentration of contaminants.

The present method is advisable to treat wastewater with a high concentration of contaminants having a biological oxygen consumption of BOD more than 300-400 mg / l (wastewater and juice processing plants, fish processing plants, dairies, etc.) With a BODP value of up to 3000 mg / l, the proposed method is recommended to be carried out in two steps. For more concentrated wastewater. arranged in three or four steps. More than four steps arrange economically impractical. The essence of the present method is as follows. Sewage water 1 is fed to the aeration tank of the first stage 2, where part of the contaminants are removed from it by active sludge. Circulating activated sludge is separated in the secondary settling tank of the first stage 3 and fed through pipeline 5 to the regenerator 4. After regeneration, the activated sludge is fed to the aeration tank of the last stage 6. The regenerated active sludge intensively consumes organic substances, which are difficult to biochemical oxidation, from wastewater, entering the last stage 6. After settling in the sump of the last stage 7, activated sludge, not yet saturated with contaminants, is directed through the pipeline 8 to the aeration tank of the previous stage 9, which is richer in organization cic contaminants. The active sludge in the system is sequentially moved in the direction of increasing the concentration of contaminants, according to the principle of counterflow, gradually saturating the contaminants. Sewage water 10 after the sump of the last stage is removed from the system. The difference in this cleaning method is in the direction of movement of the circulating active sludge. The aeration tank of the first stage 2 is supplied with activated sludge from the secondary clarifier of the subsequent stage, which already absorbs contamination at this stage. Fully saturated soil activated sludge from the secondary clarifier of the first stage 3 is sent to the regenerator 4. The regenerated activated sludge is again fed to the aeration tank of the last stage, where the concentration of contaminants is the smallest. The test of this method is carried out on the wastewater of the Leningrad m sokombinat. The laboratory setup in which the present method is carried out is a set of cylinders of organic glass. The duration of aeration in the aerotanks of the first and second stages is 1 hour, the duration of settling after the first stage is 0.5 hours, after the second stage 1.5 hours. The capacity of each aerotank is 6.75 liters, the volume of the regenerator is 27 liters. Circulating activated sludge is pumped from the regenerator to the second stage in the amount of 50% of the volume of water treated in the aeration tank. After the second stage, the activated sludge from the settling tank of the second stage is pumped to the first stage (also in the amount of 50% of the volume of water being purified). After the first stage, the sludge is fed to the regeneration. Air is supplied to the aerotanks and regenerator in an amount that ensures the concentration of dissolved oxygen in the aeration tanks of both stages and the regenerator is at least 2.6 mg / l. The duration of regeneration is 6 hours. The total duration of treatment of waste water is 8 hours. The volume of aeration tanks operating by a known method is: the first stage is 2 liters, the second stage is 6 liters. The duration of settling after the first stage is 0.5 hours, after the second stage 1.5 hours. The total processing time is 8 hours. The volume of aeration tanks of the known cleaning method are calculated according to the existing standards. Aeration is carried out in an amount that provides a concentration of dissolved oxygen of at least 2.6 mg / l. Both methods, known and present, are experienced in parallel. The same wastewater is fed to aerotanks in the amount of 6.75 liters around the clock during the month. The average per month concentration of wastewater is VPK, 474 mg / l. The application of the method according to the invention makes it possible to purify water up to BODt 9 mg / l. With the known method, this value was 14 mg / l. Chemical analyzes are carried out by conventional methods once every two days. The test results are presented in the table.