SU865180A1 - Device for producing photoautotrophic microorganisms - Google Patents

Description

one

The invention relates to the microbiological industry of the production of photoautotrophic microorganisms and can be used in other areas of industry where the technological process is conducted in devices whose internal surface must be periodically cleaned.

It is known that in the apparatus for the production of microorganisms, for example, chlorella, the inner surfaces are overgrown with microorganism cells, which leads to a decrease in the productivity of the devices and to disturbances in the production technology.

A plant for the cultivation of microorganisms is known, consisting of a tank for algae suspension, a pipe with a nozzle, under which a translucent coating is placed, and which is equipped with one or more scrapers for cleaning and collecting biomass 1 J.

The installation for cultivating unicellular algae, including the reactor, gas exchanger, receiver, liquid movement booster and condenser, cleaning the internal surfaces of the reactor is carried out with the aid of granules constantly suspended.

The main disadvantage of these installations was not sufficiently high "f k performance apparatus g;; due to incomplete cleaning of the internal surfaces of the reactor and the limited lifetime of the pellets, which, although they are sized, commensurate with the gap between the impeller and the pump cochlea, however, repeatedly passing through the pump, are destroyed.

The purpose of the invention is to increase productivity.

This goal is achieved by the fact that the tubular apparatus with its installations at its inlet and outlet of the separators, as well as a reversing device, which is made in the form of two three-way valves, two nozzles of each of which are connected respectively to the pyramizers installed at the inlet and outlet, moreover, the third pipe of the single valve is connected to the pressure pipe of the pump, and the third pipe of the other valve is connected to the gas exchanger.

Moreover, each pyzheulovitel is made in the form of two truncated conical sockets conjugated with its large bases, between which a mesh partition is installed, and is equipped with a branch pipe to replace the wad and the finished product.

The drawing shows the proposed installation for the production of photo-autotrophic microorganisms.

At the inlet and outlet sections of the tubular apparatus 1 with t) 1zhom 2, made in the form of a ball, the diameter of which is paiaeH to the diameter of the pipeline, pyzheuloviteli 3 and 4 are installed with nozzles 5 and 6 and mesh partitions 7, which prevent the ingress of the wad into the pump 8. Dimensions mesh screen Pyzheulovitel selected in such a way that the wad delayed by it does not reduce the area of the transverse flow of the suspension of microorganisms circulating in the apparatus.

Pipe connectors are connected via circulation pipelines 9, 10 and 11, 12 to connect pipes 13, 14 and 15, 16 of a three-way valve 17 and 18, pipes to which 19 and 20, respectively, are connected to the pressure line of the pump and to the gas exchanger 21.

The gas shaker is equipped with a gas supply tube 22 and a gas discharge tube 23, as well as a throat 24 for filling the apparatus with a nutrient medium. The gas exchanger is connected to one of the three-way valves by pipeline 25.

The installation works as follows.

When the three-way cranes are positioned on the drawing, after filling the apparatus with a nutrient medium through the throat 24 and turning on the pump 8, a flow of liquid (suspension of microalgae) from the gas exchanger 21 through the nozzles 19 and 13 of the three-way valve 17 through the circulation pipe 9 and the foam trap 3 is fed into the apparatus 1 from which it enters the dust trap 4, where the wad is delayed. Further, the flow of fluid through conduit 12 through the ports 16 and 20 of the three-way valve 18 returns to the gas exchanger through conduit 25.

During the circulation of the suspension, the gas is supplied to the apparatus via the gas supply tube 22, and the gases are emitted through the gas exchange tube 23.

Drainage of the finished product from the apparatus, as well as the replacement of the wad, is carried out through the pipes 5 and 6 of the pyrolysis traps.

In order to direct the flow of liquid (suspension) through the apparatus in the opposite direction (from pyeluster 4 to pyzheulovitel 3), in order to clean the inner walls of the apparatus, it is necessary to switch three-way Valves in a position that allows liquid to flow through them from the branch pipe 13 to the branch pipe 14 and from the nozzle 15 to the nozzle 20. In this case, the flow of the liquid / suspension) increases the wad 2 behind it, which is in the pyrus trap, and carries it through the apparatus to tshzhulovitel 3. At the same time, the wad will clean the internal surfaces of the apparatus, which contributes to performance of the installation.

Claims (2)

1. An apparatus for producing photos of autotrophic microorganisms, including a tubular apparatus with wads, circulation piping, a pump and a gas exchanger, characterized in that, in order to increase productivity, the tubular apparatus is provided with pyrus traps installed at its entrance and exit, as well as reversing 91M device which is made in the two-way three-way valves, two latrubka of each of which are connected respectively to the pyrofucks installed at the inlet and outlet, and the third nozzle of one crane is connected to pump pipe, and the third pipe of the other - with the gas exchanger. 2. The installation according to claim 1, so that each wand is made in the form of two truncated comic trumpets conjugate with its large bases, between which a net partition is installed, and provided with a branch pipe 58651806 to replace the wad and drain the finished pro-. 1. Single-cell algae in sistb-. ducts. life support space . Sources of information, obov, M., engineering, 1976, taken into account in the examination with. 4-9.