SU1587017A1 - Countercurrent aerotank for treating sewage - Google Patents

Abstract

The invention relates to devices for the biological treatment of wastewater, in particular, corridor type aeration tanks. The purpose of the invention is to reduce the cost of wastewater treatment by increasing the degree of use of air oxygen and preventing the formation of stagnant zones. The aerotank contains a reservoir 1 with aerators 2, which is divided by partitions 3 into a series of pairs of chambers. The bottom 6 of the chamber 5 is made with a slope. The device is energy efficient since Reducing air consumption for aeration causes a corresponding reduction in energy consumption. 1 il.

Description

The invention relates to devices for biological wastewater treatment, in particular to aeration tanks of the corridor type.

The purpose of the invention is to reduce the cost of wastewater treatment by increasing the degree of utilization of oxygen and preventing the formation of stagnant zones. , θ

The drawing shows a diagram of the aeration tank.

The aeration tank contains a tank 1 with bottom transverse aerators 2, which is divided by transverse overflow partitions 3 into a series of pairs of chambers. Each pair of chambers consists of a first chamber 4 with a downward flow and intensive countercurrent aeration and a second chamber 5 with an upward flow. 2Q The bottom 6 of the chamber 5 is made with a slope.

Aerotank works as follows.

With an average horizontal velocity of the fluid in the aeration tank of 25 0.7 cm / s, the wastewater entering the counterflow chamber 4 acquires a downward flow velocity of about 6 cm / s. The average bubble-air ascent rate, which is equal to 23 cm / s under normal θ conditions, in the countercurrent chamber decreases accordingly to 17 cm / s.

In this regard, the contact time of air bubbles with the waste fluid35 increases from 19.6 s for a conventional aeration tank to 27 s, which is equivalent to an increase in the .. of the aerated liquid layer from 4.5 to 6.1 m.

I

The solubility of air oxygen in 4Q depending on the conditional increase in the height of the liquid column above the aerator c _t 4.5 to 6.1 m, calculated by the formula = (1 + Y ^is 45 from 10.68 to 11.38 mg / L. Accordingly, the specific consumption air in cubic meters per cubic meter of wastewater is reduced from 7.3 to 6.71 m ³ / m ³ , i.e. by 8%.

The counterflow chamber 4 has a case without increasing the aerator area for a conventional aeration tank, the coefficient K ₁ in the formula for determining the specific air flow q increases from 1.47 to 2.3. As a result, the specific air consumption, taking into account the effect of counterflow, decreases from 7.3 to 4.62 m ³ / m ³ or by 37%.

In the device, at an average downward flow velocity in the countercurrent chamber of 5.8-6.0 cm / s, the time of aeration of the waste fluid is 1 min 18 s, therefore, the residence time of the waste fluid in the chamber with upward flow 5 is 5 minutes 12 s. Having a residence time of the liquid in the chamber 5, determine its length equal to

2.2 m, while the total cycle time is 6.5 minutes, which corresponds to the parameters of cyclic aeration and provides a reduction in oxygen by 20%.

Aerotank fits most conveniently on terrain with a slope of up to 5%. With such a placement of the relief elevation, virtually no planning work is required.

The proposed aeration tank is energy-saving, since a reduction in air demand for aeration causes a corresponding reduction in electricity demand.

Claims (1)

Claim Counterflow aeration tank for wastewater treatment, containing a rectangular tank with bottom aerators, separated by vertical transverse overflow partitions, into chambers, characterized in that, in order to reduce the cost of wastewater treatment by increasing the degree of use of oxygen and preventing the formation of stagnant zones, the chambers are made in the form of pairs of communicating chambers, the bottom of the second chamber in a pair is made with a slope ^ and the bottom of each subsequent pair is made below the bottom of the previous one, with a relative length and ratio The area of the aerator 2 located in the lower part55 of the chamber is brought to 0.75 for the aerated liquid area in the countercurrent aeration chamber. In this case, the length ratio of the chambers in a pair is 1: 7-1: 10, and the ratio of the cross-sectional area of the aerator to the area of the chamber in which it is placed is 0.4-0.7.