SU485143A1 - Microbial growth apparatus - Google Patents

Description

one

 The invention relates to the microbiological industry and can be used in food, pharmaceutical and other sectors of the national economy.

An apparatus is known that comprises a reactor with a pyrcolus zinc tube system and an aerating device with an air-inlet nozzle and a container with an antifoam and a gas-supplying nozzle, communicated in the upper and lower parts of the reactor.

A disadvantage of the known apparatus is the insufficient dispersion of air in the culture medium.

The aim of the invention is to intensify the process of cultivating meekness.

This is achieved by the fact that in the proposed device the aerating device is made in the form of a horizontally-installed FLOOR shaft with the ball and holes, located between the ball, the air supply pipe is connected to the shaft cavity, and the apparatus is equipped with a driving impeller to create air flow across the beam pipes.

Pa FPG. 1 shows PI11Or (Chipy p.i; cut along a hollow shaft with blades; pa f) and 2 shows a section along A-A in FIG. one; on phpg. 3B-B in FIG. 2

The device contains apern on i n 2 pejjjeTKii with fixed clamps and circular pipes 3 and iniiK 4 and the top 5 chambers. 1hours, ry 4 and 5 pipelines O p 7 connected with: a capacity of 8, which is equipped with a Mokhapp non-extinguisher t). The nozzle 10 serves to exit the roroisoio product, and the nozzle 11 is for the exit of the gas.

Melada reschikami 1 p 2 otapovlip diffuser 12 s is located) the first by a drive impeller 13, spa / - zhoppo engine 14.

In the lower chamber 4 ropn iuHTiuibiio it is established a nolpch aal 15 s lo) aastiki1 Ki and apertures 17, located between jionaCTHNUi. With one CTOjionbi hollow ia; 15 is closed with krpik 18, (.-Osdinenpa ii; .Il 19 with the drive 20, d Jygoii Konep iyala 15 is installed on the nodinppshks; 21, Mac

replenished on an air trap patru & ke 22.

In breech chamber 4 is located fitting 23 for. input nutrient medium.

The machine works as follows. The hollow shaft 15 is driven by the shaft 19 of the actuator 20,

During rotation, the fluid in chamber 4 is captured by blades.

16 and as a result of rotational forces generated during rotation, is thrown radially away from shaft 15, where, at the place of fluid separation from the side surface of shaft 15, a depression zone I is formed, under the action of which air is sucked through the air inlet shaft 15 and through The orifices 17 enter the liquid at high speed and are finely dispersed in it. The gas-liquid mixture formed rises into the upper part of chamber 4, where it is distributed through the plumbing pipes 3, the gas-liquid mixture rises through circulation pipes 3 into the upper chamber 5, from where the pipeline 6 flows into the tank 8, into the tank. 8 by means of defoaming agent 9, the mixture is divided into liquid and gas. The gas is discharged from the tank 8 through the nozzles 11, and the liquid enters the chamber 4 again, forming a closed circulation loop.

The culture medium in the apparatus is cooled by creating a directional air flow to the pipes 3. The flow is created when the impeller 13 rotates with the help of a diffuser 12. The finished product is removed from the apparatus through nozzle 10, and the nutrient medium enters the apparatus through nozzle 23.

Subject invention

An apparatus for growing mycoplasma containing a reactor with a circulating pipe system and an aerating device with an air inlet nozzle and a container with an antifoam and a venting nozzle communicated at the top and bottom with a reactor, characterized in that, in order to intensify the growing process, The aerating device is made in the form of a horizontally mounted hollow shaft with blades and openings located between the blades, the air inlet pipe is connected to the shaft cavity, and the apparatus is provided with The drive impeller is S1H creating an air flow across the tube bundle. I4z.1

1e

nineteen

20

t

E

15

.2

1B

15

17

and.3

Aa

-77 21

22

E

and

-sixteen