SU1549929A1 - Device for aeration of waste water - Google Patents

Abstract

The invention relates to wastewater treatment and is intended for use in aeration facilities at biochemical wastewater treatment plants. The purpose of the invention is to increase the efficiency of use of the device by ensuring the forced return of activated sludge. The use of the proposed design of the device, equipped with return sludge piping with valve 6 attached to it and spring-loaded relative to it, as well as pipe 7 attached to the valve, allows forced return of activated sludge from secondary settlers to pipeline 5. Returnable activated sludge consumption is reduced thanks to valve 6. 1 sludge.

Description

The invention relates to a device for aeration of wastewater during their biochemical treatment in aeration structures and can be applied at treatment plants for domestic and industrial wastewater.

The aim of the invention is to increase the efficiency of use of the device by providing forced ~ 1 q noy recirculation of activated sludge.

The drawing shows a device, a longitudinal section.

The device contains a vertical / pipe 1 located inside it in the 15 / upper part of the propeller 2 and a tubular aerator 3, a chipper 4 located under the pipe 1. The return pipe 5 is cut off at an angle or installed at an angle to pipe 20 , is located a hole down under the propeller 2. The damper 6, to which the nozzle 7 is attached, is attached by means of a hinge 8 to the end of the pipeline 5 and is spring-loaded relative to it by a spring 9. The nozzle 7, attached to the damper 6, is oriented along the pipe 1 in the direction of travel fluid in it and. Under the propeller 2 above the pipeline 5 installed guide baffles 10.

The device operates as follows.

When the propeller 2 rotates, the □ С fluid is pumped down the pipe 1 to the bottom of the structure, while the fluid flow swirled by the propeller 2, passing through the flow barriers 10, acquires a rectilinear motion. Due to the resulting rarefaction over the propeller, 2-air from the atmosphere through the tube aerators 3 is sucked into the propeller 2, dispersed into individual bubbles, mixed with the silt mixture of the structure and pumped down the pipe 1 to the bottom, where it is reflected from the bump 4 and rising up, “saturates the entire volume of the aeration zone with oxygen. In the steady-state operation mode (to which the spring 9 of the shutter 6 is adjusted), a fluid flow moving from the propeller 2 through the nozzle 7 and exerting pressure on its wall (opposite from the shutter 6), the shutter 6 opens, being located, like the nozzle 7, vertically in a moving fluid flow (dashed in the drawing).

Moving rectilinearly through pipe 1 (thanks to baffles 10) with a high flow rate of liquid, the active IP through pipeline 5 is ejected from the secondary settling tanks into pipe 1, where it is mixed with the silt mixture of the aeration zone and air bubbles moving together with the fluid flow. The pipeline 5 can be installed at an angle to the pipe 1 or cut off at an angle and is located with the hole down (in the drawing, one of the positions of the pipeline 5 is shown by a dotted line). With increased foaming of the fluid in the structure, the density of the aerated fluid decreases and, as a result, the rate of fluid movement in the pipe · 1 decreases, the pressure exerted by the fluid flow on the wall of the pipe 7 decreases (foaming is one of the reasons when the hydrodynamic regime in the structure is disturbed), when this spring 9, adjusted to normal hydrodynamic mode, the valve 6 is partially pressed against the pipe 5, covering its outlet, which reduces the consumption of recirculating active of silt. With significant foaming, when the pressure of the fluid flow moving from the propeller 2 to the wall of the nozzle 7 is minimal, the damper 6 is pressed tightly against the edge of the pipeline 5 by the spring 9, thereby preventing the entry of activated sludge from the secondary sumps into the aeration zone.

With increased foaming in the structure and, as a consequence, an increased content of air bubbles in the treated liquid, the inflow of activated sludge from the secondary settlers leads to its partial flotation into the foam layer by gas bubbles, which reduces the concentration of activated sludge in the aeration zone, due to a decrease in the velocity of the aerated liquid in activated sludge can precipitate at points of the structure remote from the pipe 1, build up, rot, which also leads to a decrease in its concentration in the aeration zone and to destruction of the biological wastewater treatment process.

The use of the device allows continuous forced recirculation of activated sludge from the secondary sumps during normal hydrodynamic operation of the equipment and automatically reduces or completely prevents its entry into the aeration zone during increased foaming or other cases of disturbance in the hydrodynamic operation mode of the structure.

Claims (1)

Claim A device for aeration of wastewater containing a vertical pipe with flow-guiding baffles and a propeller and a tube aerator installed above them inside the pipe at the top of the pipe distinguishes 1549929 that in order to increase the efficiency of use of the device by ensuring forced recirculation of active sludge, it is equipped with piping, a pipe and a damper installed under the partitions, the end face of the pipeline is cut at an angle and is located with a hole down or installed at an angle to the pipe, sleep shutter wife hinge and spring, attaches it to the pipeline, and the pipe is attached to the shutter and is oriented along the vertical pipe _15.