SU998389A1 - Aeration apparatus - Google Patents

Description

C5) AERATOR

Claims (2)

The invention relates to devices for mixing and aerating liquids, and can be used for treating liquid animal waste in channels, storages, pools. A mechanical aerator is known, consisting of a stationary pipe with a shaft located inside it, a slew drive and a lower mixer G 1 1. The disadvantage of this aerator is that it creates only local turbulization of the fluid, due to which its hydraulic bias one aerator into the zone of influence of another occurs slowly. In addition, the screw (the aerator stirrer in the process of operation stimulates the rotational movement of the fluid, which adversely affects the hydrodynamics of the entire structure. The purpose of the invention is to increase the efficiency of mixing and aeration of liquids. In the upper part for supplying air, the shaft, equipped with a drive and a propeller, and expanding nozzles, screw guides are installed along the inside of the expanding nozzle; their height is in any section of the nozzle is not greater than the magnitude of its expansion Figure 1 shows a proposed aerator;... Figure 2 - section A-A in Fig 1. The aerator has a housing 1, which at an angle to the horizontal surface of the drive motor is mounted. 2. A pipe 3 with holes в in the upper part for supplying air and a protective casing S is fixedly aligned with it fixedly. Inside the pipe there is a drive shaft 6 with a propeller 7. There is an expanding nozzle 9 with screw guides 10, which are located along the forming inside this nozzle, and the width of the faces of the guides in any section of the nozzle is not greater than the value of its expansion. The aerator works as follows. When the propeller 7 is rotated, the fluid that has flowed around the radially mounted flat holders 8 enters the cavity of the nozzle 9 and is injected through it into the aerated mass. Behind the screw 7, a vacuum is created and the air through the holes C and the pipe 3 is drawn into the liquid. Inside the nozzle 9, the liquid is mixed with the oxygen of the air and drawn into rotational turbulent motion. When exiting the nozzle 9, due to esro expansion, the flow rate somewhat decreases and the vacuum increases, which contributes to additional air suction. In addition, the screw guides 10 convert the rotating flow into a targeted jet and send it into the aerated mass. This aeration mode provides high oxygen saturation; due to the directionality of the flow, the path and time of the presence of fine air bubbles in the liquid, as well as the maintenance of solid particles in suspension, is increased. Along with this, the radially mounted flat holders 8 prevent the formation of a rotating movement of the fluid prior to contact with the screw 7, which reduces the fluctuation of the funnel, providing a more uniform air inflow and stabilization of the whole aeration process. The proposed aerator makes it possible to increase the path and duration of stay of fine air bubbles by half, and the amount of inhaled air increases by 25-30. DETAILED DESCRIPTION OF THE INVENTION An aerator comprising a guide tube with air supply holes, a shaft with a propeller screw and an expanding nozzle mounted at the outlet end of the tube, characterized in that it is equipped with screw guide attached to the inner surface of the nozzle along its generators, with the height of the guides in any section of the plan | and not more than the magnitude of its expansion. Sources of information accepted.vo. attention during examination 1. USSR Certificate of If If 375256, c. C 02F 3/26, 1971. 9 10 7 b Ft / g.Z