SU1761689A1 - Method for deep treatment of sewage - Google Patents

Abstract

Usage: in sewage treatment plants of small capacity, in particular in rural areas. Summary of the invention: saturate wastewater with oxygen and filter at a load of 0.3-0.5 m3 / m2 for 1 day through a sand mixture containing 20-80 wt.% fractions of 0.25 to 0.50 mm. 2 tab.

Description

The invention relates to the deep treatment of domestic and related wastewater composition and can be used in treatment plants of low productivity, particularly in rural areas.

The closest to the proposed technical essence and the achieved result is a wastewater treatment method, which includes filtration through a flooded granular load with a load of 3–5 m3 / m2 / h and air supply to the middle part of the load, ensuring the efficiency of cleaning by BOD to 80%.

The disadvantage of this method is the low degree of purification of the MIC (biochemical oxygen consumption).

The aim of the invention is to increase the cleaning efficiency of BOD.

For carrying out the process, oxygen is supplied to the wastewater and filtration is carried out with a load on the filtering surface of 0.3-0.5 m3 / m2 for 1 day through a mixture of coarse-medium and fine-grained sand containing 20-80% by weight of fine-grained fraction with particle size of 0.25-0.50 mm.

Sewage water purified in aeration tanks and secondary settlers with a metering device or a pump is periodically fed to a filter with a load of coarse, medium and fine-grained sand. Water is evenly distributed on the filter surface using known devices.

The presence in the composition of the loading of coarse and medium-grained material provides good penetration of air into the body of the loading, and fine-grained - highly efficient retention of suspended solids.

The presence of oxygen and residual organic pollutants in the charge contributes to the development of a bacterial biocenosis, which in the course of its viability consumes organic matter as a nutrient substrate.

During periods when sewage is not supplied for filtration, there is an additional oxidation of retained contaminants.

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As a result of the ongoing processes, a high degree of deep wastewater treatment is achieved.

Example. Domestic wastewater, purified in aerotanks and clarified in secondary settling tanks, is sent to a tank equipped with overflow for additional water saturation with oxygen, from where it is pumped periodically 7-10 times in 1 day to the irrigation pipes of the filter filled with large-scale mixture using a pump. , medium and fine-grained sand containing 20-80 wt.% fraction with a particle size of 0.25-0.50. The load is set as follows: using a pump or a metering device, the treated wastewater is fed to the filtration from the following calculation: 0.3-0.5 m3 of water is fed for 1 day per 1 m of loading area, for example, with a loading area of 10 m2 for filtration from 3 to 5 m3 of treated wastewater is fed for 1 day.

The filtered water is discharged through the drainage pipes to the contact tank for decontamination.

During operation, the filters require virtually no maintenance, can be located in the ground, which allows you to refuse to build a building,

The test results on the effect of load on the cleaning efficiency are given in Table 1.

From the data table. 1 shows that the process with a load of more than 0.5 m3 / m2

in 1 day does not give the required degree of purification for the MIC and leads to a relative rapid silting of the filtering surface (within a few weeks), and with

A load of less than 0.3 m3 / m2 in 1 day is not advisable to perform deep cleaning, since the degree of wastewater treatment practically does not increase.

The effect of sand fractions ratio

loading on the conditions of filtration of water (with the original BOD complete. 15 mg / g) is given in Table. 2

From the data table. 2, it can be seen that an increase in the degree of purification compared to the prototype (80%) is observed only when using a mixture of sand containing 20-80% of the fine-grained fraction.

Thus, the proposed method allows to obtain high quality water,

suitable for discharge into reservoirs.

Claims (1)

Invention Formula A method of deep sewage treatment, including filtration of treated sewage through a granular charge, saturation of the oxygen load, characterized in that, in order to increase the cleaning efficiency of the MIC, oxygen saturation is carried out before filtration, filtration is carried out with a load of 0.3 -0.5 m3 / m2 in 1 day and as a load, a mixture of sand containing 20–80 wt.% Fraction with a particle size of 0.25-0.50 mm is used. Table 1