SU1122622A1 - Method for controlling inflow of waste liquors at biological purification plant - Google Patents

Abstract

THE METHODS OF REGULATING THE FLOW OF THE WASTE WATER TO THE STATION OF BIOLOGY CLEANING, which involves dividing the flow during the period of maximum water flow into two parts, one of which goes directly to the treatment plant, and the other - to the storage tank, from which it is supplied to the treatment plant. structure, characterized in that, in order to reduce the total volume of the structure and the amount of electricity consumed, the flow is divided so that the part of the flow entering the storage capacity is 10-2 5% of the maximum inflow, and the volume of the storage capacity required for this is determined by the formula.

Description

This invention relates to the biological treatment of municipal wastewater and can be used in the treatment of industrial wastewater. There is a known method for regulating wastewater in the sewage system fl3. However, this method is not suitable for cleaning urban wastewater. The closest to the invention according to the technical nature. The achieved result is a method of controlling a mixture of municipal and surface drains with a common sewer system, which means that the flow is divided into two parts during the hours of maximum discharge. treatment facilities, and a friend to the storage tank, from where, during the hours of minimum inflow, is fed to the treatment facilities C2. However, in a known method, only additional surface runoff from urban areas is subject to regulation, is fed to the treatment plant during periods of rain and snowfall, and an increase in the volume of facilities for processing this additional flow is necessary. This method does not provide for intraday regulation of household waste water. The aim of the invention is to reduce the total volume of facilities and the amount of electricity consumed. The goal is achieved by the method, which includes dividing the flow during the period of maximum drainage into two parts, one of which goes directly to the sewage treatment plant, and the second to the storage tank, from which the flow is minimized to the sewage treatment plant, that a part of the flow en route to the storage tank amounts to 10–25% of the maximum inflow, and the storage tank required for this is determined:), the volume of the tank in days ostupleni drains on stantsiyui h- 1,4-1,6 o5m, - the total irregularity factor Incoming outflow; fluid-, KC - coefficient of uneven structures (after adjustment). The drawing shows the implementation of the method. The scheme includes grids 1, sand traps 2, primary clarifiers 3, aerotanks 4, secondary clarifiers 5,, contact tanks 6, separation device 7, storage tank 8 and pump 9. The method is carried out in the following way. Sewage fluid enters the Hai grating 1, and then into the sand trap 2, which is designed for maximum flow. In the dismissive mouth; In part 7, the wastewater flow exceeds the flow rate Q, which is calculated on the subsequent construction of Q Qi-pK. where q - the estimated consumption of facilities; Qpp - average hourly flow rate; Cc - see above) enters storage tank 8, and the flow rate Q, for which the structures are designed, passes through primary clarifiers 3, aerotanks 4, secondary clarifiers 5, contact tanks 6. At the hours when the flow rate to the station is less than the calculated flow Biological treatment facilities Q, waste liquid, accumulated and disposed in storage tank 8, is pumped by pump 9 to the inlet tray of aeration tank 4. Example. At the biological treatment station, the waste liquid is treated with a daily flow rate of Q 25 thousand, arriving with a non-uniformity coefficient of 1.35. The required volume of cleaning facilities is W 12364 wf. I regulate the flow of waste liquid; they reduce the coefficient of non-uniformity and, consequently, the calculated flow rate and volume of facilities. In this case, K, 1,2 will be optimal. The volume of the storage capacity required for regulation will be 825 m. At Krn 1.2, the volume of cleaning facilities is Wic 11000 m, and the total

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volume of structures with a tank .i lts to reduce the volume of structures

 11,825 m, which is 539 m lower, by 4–8%, which leads to a reduction in the volume of structures without intraday adjustment of the amount of necessary adjustment. ore processing and, therefore, to the so-called processing, proposed to the displacement of the consumed electric power in comparison with the known permissiveness.

Claims (1)

METHOD FOR REGULATING WASTE WATER FLOW TO A BIOLOGICAL CLEANING STATION, including dividing the flow during the maximum drainage period into two parts, one of which goes directly to the treatment plant, and the other to the storage tank, from which, in the hours of minimum inflow, it is fed to the treatment plant, which differs the fact that, in order to reduce the total volume of the structure and the amount of electricity consumed, the flow is divided so that part of the flow entering the storage tank is 10-25% of the total maximum DUTY inflow and required for this storing space volume is determined by the formula ^where c ^ »K * ~ ° ® ^em capacitance in fractions daily intake station drains', n- 1,4-1,6,1 K “the general coefficient of uneven flow of sewage; K s “coefficient of unevenness of structures (after regulation). 1 1122622