SU1355628A1 - Aerator - Google Patents

Abstract

This invention relates to the microbiological industry. In order to intensify aeration, the device comprises a stationary case, inside which spiral channels 2 are arranged conically in the peripheral part, passing into nozzles 3. In the case there is a wheel 5 of a centrifugal pump on the shaft. At the outlet of each of the nozzles 3 they are coaxially fitted with bushings 6, to which gas pipelines are connected. The nozzles 3 and the sleeves 6 form ejectors, in which it is possible to obtain a contact surface approximately 17 times more than in apparatus with mechanical agitation. 2 Il. (L with SP SL O5 Yu Yuo

Description

The invention relates to the microbiological industry and can be used in the cultivation of microorganisms, such as hydrogen bacteria.

The purpose of the invention is to achieve an ejection effect.

FIG. Figure 1 shows schematically a device for aerating a liquid with a gas; in fig. 2 - top view

The aerator consists of a stationary housing 1, inside of which on the peripheral part there are spiral channels 2, which are tapered and crossover to nozzle 3. In case 1, a wheel 5 of a centrifugal pump is placed on shaft 4. At the exit of each of the nozzles 3 they are coaxially installed in the streets 6, to which the gas pipelines 7 are connected. Moreover, the nozzles 3 and the sleeves 6 form ejectors.

The device works as follows.

Fluid through the lower hole of the fixed casing 1 is sucked in by the wheel 5 of a centrifugal pump mounted on shaft 4. After passing through the blade of wheel 5, the liquid at high speed enters the spiral channels 2 and from there into the nozzles 3. The through passage section of the spiral channels 2 is calculated in such a way that the speed the fluids in these channels did not decrease, and an increase in the flow area of the channels was used only for new portions of fluid flowing from the blades of the wheel

5 during its rotation, i.e. there would be no transfer of energy from kinetic to potential, since any

the transfer of energy from one form to another creates losses. The liquid stream coming out of the nozzles 3 gets into the cylindrical sleeves 6, where it contacts the gas flowing through gas pipelines 7. The sleeves 6 with nozzles 3 act as ejectors, in which the contact surface can be obtained approximately 17 times higher than in the apparatus with mechanical agitation.

Out of the cylindrical sleeves

6 gas-liquid mix

and. aerating nearby fluid layers.

Thus, the proposed aerator makes it possible to intensify the aeration of a liquid by installing cylindrical sleeves and reducing the energy supplied to the rotation of the shaft through the use of spiral channels and a fixed body, thereby

the most ejection effect is achieved.

Claims (1)

Invention Formula The aerator, consisting of nozzles, channels and a gas pipeline, is distinguished by the fact that, in order to intensify aeration, the channels are made spirally, cone-shaped, passing into nozzles, behind which coaxial pipes are installed coaxially to them. Editor A. Revin Compiled by A, Kalashnikov Tehred L.Oleynik Proofreader M. Maksimishinets Order 5752/25 ,. Circulation 500 Subscription VNSHPI State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 FIE1