SU585126A1 - Sump for removing suspended matter from waste water - Google Patents

Description

one

The invention relates to devices for the mechanical treatment of wastewater and can be applied to improve the performance of existing radial septic tanks.

A radial sump is known, consisting of a cylindrical tank, a primer, a scraper / inlet and outlet pipes, and a central cylindrical screen l.

The degree of removal of suspended particles from wastewater by such a sump at a hydraulic load from 1.1 to

/ m

h is an average. 35-60%.

3m

However, with an increase in the load on the sump by 2-3 times, the degree of removal of suspended particles increases to 30% and less. Such an increase in the load of the septic tanks of sewage treatment plants, associated with an increase in the population size and an increase in the productivity of enterprises, requires the construction of new typical sewage treatment plants.

A radial sump is known, including similar structural elements — a central guide screen, for collecting sludge, drainage trays 2.

However, such a sump is not efficient enough in operation, since

the outflow of the initial fluid from under the screen, which is made short, does not allow horizontal surface movement of this fluid to the periphery of the settling tank, as well as a certain optimal speed sufficient to create the necessary turbulence of the suspended sludge layer. to achieve the desired degree of coagulation, its height and density

The purpose of the invention is to increase the productivity of existing standard radial clarifiers.

The goal is achieved by selecting the ratio of the sizes of the diameter of the central guide screen and the settler (prim), the size of the air between the bottom of the settler and the bottom KPO of the screen and the rotational speed of the scraper at which the concentration and turbulence in the settler at a given load suspended layer, contributing to the intensive adsorption of colloidal and finely dispersed suspended matter on its larger particles, due to which a high degree of liquid clarification takes place within a few seconds ,

passing through such a layer.

The screen diameter in this device is equal to the diameter of the tube, and the relation of the diameter from the tube to the diameter of the sump is 1 / 6-1.4 of the diameter of the sump, the gap between the screen and the bottom of the sump is 1 / 10-1 / 3 of the working depth. sump The maximum cleaning effect is achieved at a rotation speed of the scraper of 4 rev / h.

Figure 1 shows a sump to remove suspended solids from wastewater, a vertical section.

Figure 2 shows a graph of the effect of cleaning on the size of the gap and load.

The settling tank to remove suspended matter from the wastewater contains qi, a lindrical body 1, with a bag for collecting sludge 2, a scraper 3, a central cylindrical screen 4, inlet 5 and a discharge pipe 6.

The diameter of the central screen 4 is from 1/6 to 1/4 of the diameter of the housing 1 and is equal to the diameter of approximately 2 and the gap between the lower edge of the screen 4 and the bottom of the housing 1 is from 1/10 to 1/30 of the working depth of the sump.

Works sump as follows. Untreated sewage water flows through the supply pipe 5 to overflow and flows through the central cylindrical screen 4 to sample 2, then through the gap between the lower edge of the screen 4 and the bottom of the housing 1 enters the settling zone of the tank, where suspended particles gradually settle to the bottom. The settled part of the suspension (skop) by the scrapers 3 is gradually shifted to at 2 µm 2. In the above-mentioned gap, the scop is partially stirred up by the counter flow of the incoming liquid and returns to the sludge zone, forming a layer of increased concentration of suspended solids (3-15 g / l in the suspended layer a) whose stability is maintained by continuous rotation of the scrapers. In the process of filtering the incoming fluid through such a layer, continuous updating and strengthening of the floc occurs; the largest floccules are deposited and after several cycles fall into wet 2, from where they are pumped into sludge thickeners, and smaller floccules constituting 80-90% of the total sludge are captured and destroyed by a counter-flow of liquid, again returning to the separation zone

The required turbulence of the suspended layer is ensured by the creation of optimal hydraulic conditions (conditions) and, in particular, the velocity of the liquid in the bottom layer, as well as hydraulic loads. The optimal speed is the speed in the bottom layer of the order of 15–20 cm / sec. Kotor is provided at the accepted slit value, which follows from the attached graph, which expresses the dependence of the cleaning efficiency on the loads and the bottom slit value.

The effect of cleaning up to double hydraulic load does not decrease below 50%. When the suspension is removed from the settler no more than 50 mg / l, and an increase in the number of suspended particles in the wastewater at hydraulic loads from 3 to 6 m / m H leads to an increase in cleaning effect. However, with hydraulic loads above 6. Because of the high fluid velocity in the bottom bottom screen, the sludge is removed and the cleaning effect drops.

The technique-economic effect from the implementation of the invention was found by comparing the cost of constructing a radial sump with the cost of lengthening or installing a new screen, in both cases the cost of reequipping the existing sump is less than the cost of building a new sump fifty or more times.

Claims (2)

1. Designer reference book. Analysis of populated places and industrial enterprises. M., 1963, p. 117 2. The patent of Germany, 2051665, cl. 8b 6/01, 10/4/73. . Ovlaap optipalmoy. sporosti. 1/30 i / 201 / Юf / S The size of the gap is 6 working depth // 4 FIG. 2