RU2185338C2 - Method of through biological cleaning of sewage from nitrogen of ammonium salts - Google Patents

Abstract

FIELD: treatment of sewage; cleaning of domestic and industrial sewage at deep oxidation of ammonium salts. SUBSTANCE: biological cleaning is performed in plant divided into four alternating anaerobic and aerobic zones. Starting sewage is directed to first and third zones at relationship of 60 % and 40 %; return activated sludge is recirculated after settling to first and third zones: 100 % and 100 % of volume of sewage delivered for cleaning. Method provides for cleaning sewage from nitrogen of ammonium salts practically to zero, increase of oxidation power of system by 2.6 times and increased of specific rate oxidation of organic contaminants by 1.7 times. EFFECT: enhanced efficiency of cleaning of sewage from nitrogen of ammonium salts; intensification of biological cleaning process; increased oxidation power of system. 2 cl, 1 dwg, 1 tbl, 1 ex

Description

 The invention relates to the field of domestic wastewater treatment and can be used for the treatment of domestic and industrial wastewater with a deep removal of ammonia nitrogen.

 There are a number of methods for removing ammonia nitrogen from wastewater, both physicochemical and biological. But all of them either require large material investments and are difficult to operate or do not provide deep removal of nitrogen of ammonium salts.

 The closest in technical essence to the proposed invention is a biological method described in the article E.S. Razumovsky and N.A. Zaletova "Removing nutrients from urban wastewater" (journal "Water supply and sanitary equipment", 6, 1991). The method is carried out in an installation divided into 4 consecutive zones (the 1st zone is anaerobic, the 2nd zone is aerobic, the 3rd zone is anaerobic, the 4th zone is aerobic). The method consists in the fact that 70% of the source water is supplied to the first zone, the remaining 30% to the third zone, and the return activated sludge after settling together with part of the purified water is sent to the first zone, while recycling is 400%.

 The disadvantage of this method is the low degree of purification from nitrogen of ammonium salts - up to 0.3-0.5 mg / l, while this effect is achieved only if there is an inert plane load and a small load on activated sludge, comprising only 200 mg BOD / g day at a dose of sludge 3 g / l. Wastewater treatment time is 8-12 hours, due to the low speed of the oxidation process.

 The technical result of the invention is to increase the degree of wastewater treatment from ammonium nitrogen, the intensification of biological treatment processes, an increase in the oxidative power of the system.

 The goal in the biological treatment of wastewater in a plant divided into four successively alternating anaerobic and aerobic zones is achieved by the fact that 60% of the initial wastewater is directed to the first anaerobic zone, and 40% to the third anaerobic zone; Returned activated sludge is recycled after settling into the first zone in an amount of 100% of the volume of incoming wastewater and in the third zone in an amount of 100%, while the volume of the first and third zones is half the volume of the second and fourth aerobic zones.

The drawing shows a diagram of the proposed biological wastewater treatment from nitrogen ammonium salts, where
1 - denitrifier;
2 - nitrification;
3 - denitrifier;
4 - nitrification;
5 - sedimentation tank.

 The cleaning method is as follows. The original waste water (6) is divided into two streams. The first stream in an amount of 60% of the total volume of wastewater is fed into the first anaerobic zone, return sludge with purified wastewater in an amount of 100% of the volume of wastewater is also recycled from the settling zone (9). Together with activated sludge, a certain amount of nitrates gets here, therefore, due to the breakdown of nitrates and a sufficient amount of organic substrate, the nitrification process is carried out simultaneously in the first zone due to the presence of oxygen. Next, a mixture of wastewater with activated sludge enters the second aerobic zone, where the oxygen concentration is 3-4 mg / L. In the second zone, the resulting gaseous nitrogen is blown out and nitrogen nitrification of ammonium salts takes place.

 From the aerobic zone, the sludge mixture is sent to the third anaerobic zone. Also in the third zone serves 40% of the original wastewater and 100% recirculated activated sludge (9) from the incoming volume of water. The biological treatment process is similar to the process in the first zone, with the complete oxidation of nitrogen of ammonium salts.

 In the fourth zone, nitrogen is stripped off, released during nitrate reduction, and in the sump, purified water is separated from activated sludge, which is returned to the first and third zones. The treated wastewater is discharged through a pipeline (7). Air supply is carried out through the duct (8).

Example: the proposed scheme was tested on a pilot installation on the basis of the Research Laboratory of the RMVSS of the Department of Sewerage of MGSU. Wastewater was supplied for biological treatment in an amount of 0.038 m ³ / day with organic contaminants - BOD ₅ - 200-250 mg / l, ammonium nitrogen - 17-20 mg / l, phosphate - 7-8 mg / l, suspended substances - 80-90 mg / l. The residence time in the reactor was 5.5 hours. The concentration of dissolved oxygen in the first zone did not exceed 0.5 mg / L. Next, the sludge mixture was aerated in the second zone. The oxygen concentration was 3-4 mg / L. In the third zone, the oxygen concentration is less than 0.5 mg / l. In the fourth zone, the sludge mixture was aerated with an oxygen concentration of about 4 mg / L. Active sludge from the sump was fed into the first and third zones using airlifts at a rate of 0.038 m ³ / day. The dose of activated sludge in the reactor was 3 mg / L. The age of the sludge was in the range of 25-30 days. The increase in activated sludge was 95.7 mg / L. The average oxidation rate in the reactor was 0.335 mg / g h. The load on activated sludge in organic compounds was 520 mg BOD / g day.

 Comparative data of the known and proposed methods are shown in the table.

 Thus, the proposed method, in comparison with the known one, has the following advantages: the degree of purification of wastewater from ammonium nitrogen is increased, the concentration of which in purified water is below the limit of determination; the oxidizing power of the system increases, while the load on organic pollution on sludge can be increased by 2.6 times; the specific rate of oxidation of organic pollutants increases 1.7 times.

 The proposed method does not require the construction of special structures and can be applied in existing displacement aerotanks after their simple reconstruction.

Claims (2)

 1. The method of biological treatment of wastewater from nitrogen of ammonium salts in the installation, divided into four successively alternating anaerobic and aerobic zones, characterized in that 60% of the initial wastewater is directed to the first anaerobic zone, 40% to the third anaerobic zone, and return active sludge after settling, they are recycled to the first zone in an amount of 100% and to the third zone in an amount of 100% of the volume of incoming wastewater.  2. The method according to p. 1, characterized in that the volume of the first and third zones is 2 times less than the volume of the second and fourth zones.

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