SU1504227A1 - Pneumohydraulic aerator - Google Patents

Abstract

The invention relates to devices for intensive aeration (aeration) of liquids in the processes of flotation, water treatment, fermentation and biochemical treatment of wastewater. The purpose of the invention is to increase the efficiency of the aerator in a wide range of loads for liquid and gas due to remote control of air and liquid gaps. The aerator consists of a water supply pipe with a branch 1, a nozzle 2, a jet-forming element 3, a jet dissector 4, and air supply pipes 9 and 10. The handwheels 15-17 are connected to elements 3 and 4 and are designed to control fluid and air gaps. The pressurized fluid is supplied to outlet 1 and with the help of elements 2-4 it expires in the form of a radial annular jet and captures air entering through the mixing chambers 7 and 8. The invention allows to stabilize and optimize the process of gas capture and dispersion due to remote control of fluid and air gaps, which leads to an increase in the efficiency of aeration in a wide range of loads on liquid and gas, as well as to a decrease in the specific cost of aeration. 1 il.

Description

The invention relates to devices for the intensive aeration (aeration) of liquids in the processes of flotation, water treatment, fermentation and biochemical treatment of wastewater.

The purpose of the invention is to increase the efficiency of the aerator in a wide range of loads for liquid and gas due to remote control of air and liquid gaps.

The drawing shows the aerator, a general view.

The aerator consists of a water supply pipe with a branch 1, a nozzle 2, a jet of a forming element, a spacer 4, nozzles 5 and 6, filled with flanging and forming between them the top 7 and bottom 8 mixing chambers attached to the air inlet pipes 9 and 10.

The nozzles 6 of the air inlet pipe 10, the separator 4, the jet-forming element 3 are connected respectively with the spindle 11 coaxially and the sleeves 12-14, threaded and fixed to them by the steering wheels 15-17. The nozzles 6, the separator 4 and the jet-forming element 3 are mounted with the possibility of vertical movement.

The aerator works as follows. Discharge 1 is supplied with pressurized fluid and flows out at high speed from the nozzle 2 in the form of an annular jet, the speed and area of the living section of which is regulated by the position in the nozzle 2 of the jet-forming element 3.

When the stream dissector 4 is wrapped around the ring jet, it gradually becomes thinner and, turning in the radial direction, flows into the annular gap between the beaded edges of the nozzles 5 and 6, creating a vacuum and trapping air entering through the upper 7 vH lower 8 mixing chambers through air supply tubes 9 and 10 The entrained air is dispersed into small bubbles at the point of entry of the radially circular jet surrounding liquid due to the turbulent pulsations of the wave boundary layer.

Complementing the streamseater 4 in the form of an annular wedge with a lateral surface shaped by the shortest descent of the cycloid makes it possible to obtain a thin

capacious radial-circular jet with a minimum height, the transition from the lowering to the radial outflow with the least energy loss when turning the flow.

Depending on the specific conditions of this or another process in gas-liquid systems, the aeration characteristics of the aerator are optimized by changing the size of the gap between the bead edges of the nozzles 5 and 6, for which with the help of the steering wheels 15 and 16 the position of the nozzle 6 and the nozzle 6 relative to each other are changed and

edges of the fixed nozzle 5. C

the helm 17 changes the position in the nozzle 2 of the jet-forming element 3, which makes it possible to adjust the transverse dimension and speed

radially-circular jet, and therefore, the disintegration of the jet in order to intensify the process of generating gas pools. Depending on the immersion depth, the aerator may work.

both in self-priming mode and with forced gas supply.

The invention allows to stabilize and optimize the process of gas capture and dispersion due to

remote control of fluid and air gaps, which leads to an increase in the efficiency of azra-1; and in a wide range of liquid and gas load, as well as

unit costs for aeration.

Claims (1)

Invention Formula A pneumatichydron aerator containing a water subsurface pipe with a nozzle, a blower, a mixing chamber, and an upper and lower air feed pipe, characterized in that, in order to increase the efficiency of the aerator in a wide range of loads for liquid and gas, due to remote control of air and a liquid gap, it is equipped with a flow element located in the nozzle of the water supply pipe, a nozzle arranged in the lower air supply pipe, made with flanging, installed coaxially spindle and 515042276 bushings made with threading, turning, with the nozzles, the strusts are also located above each other and split the zloty with three steering wheels, the element is installed so that the splitter can be displaced and the ring wedge is connected to the side with the spindle and bushings, rigidly spun, profiled on cycloidization with steering wheels.