SU1330153A1 - Apparatus for growing microorganisms - Google Patents

Abstract

The invention relates to microbiological industrial equipment. The invention is aimed at increasing the productivity of the apparatus by stabilizing the pH of the culture medium and at the same time reducing the consumption of chemical reagents. The apparatus for growing microorganisms contains a tank 1, technological connections from h / ItfUtfffOCrfft connections 2-4 for supplying and discharging liquid and gas, an aerator 5 and a circulating glass 7, a device for electrolysis of the culture medium. The latter contains a semipermeable membrane 8, made in the form of a sleeve with nozzles 9 and 10 for supplying and discharging water. An electrode 11 is mounted in the membrane and is connected to a power source. The second electrode is a circulation cup 7. In the process of growing microorganisms, a constant electric current is passed through the electrodes within 0-220 3 to maintain the desired pH in the culture medium. Excess free ions: are removed from the cavity of the sleeve, the semipermeable membrane with flowing water. Passing an electric current through a medium with a density stimulates the viability of microorganisms and increases biomass yield. 1 il. ff (L 00 with VAZZua / butHtlfVffOCfffffOtf tHfCb Af gffa iodine

Description

The invention relates to microbiological industrial equipment, namely to devices for taking out microorganisms, preferably in microorganisms. liquid media.

The purpose of the invention is to improve the productivity of the apparatus by stabilizing the pH of the culture medium and reducing the consumption of chemical reagents.

The drawing shows the apparatus, a longitudinal section.

The capacity i filled to a certain level with the culture liquid through the aerator 5 is supplied with air, which is dispersed in the liquid and forms a gas-liquid mixture in the circulation cup 7. Fresh water is fed through the nozzle 9 into the cavity of the membrane 8, which is discharged through.

The apparatus for the production of microorganisms contains a capacity of 1 with technology-15 connection 10. When cultivated by microelectrics 2--4 for supply and, roorganisms, which in the course of life of liquid and gas, placed in pH, the pH of the medium, its lower parts aerator 5 with nozzles 6 for supplying compressed air, set20

35

a nozzle above the aerator is a circulating cup 7 with a heat exchange jacket.

The container 1 is equipped with a device for electrolysis of the culture medium containing a semipermeable membrane 25 on the sleeve 8, made in the form of a sleeve with nozzles 9 and 10 for supplying and discharging water, which is located in the tank 1 coaxially to the circulating glass 7, and the electrode 11 is installed- Q inside the membrane 8 and connected to one of the poles of the electric power source 12, and the other electrode is the circulation chamber 7 connected to the other pole. source 12. A tapered insert 13 is installed on the bottom of the tank 1. The heat exchange jacket of the cup 7 is communicated by patches 14 and 15 to the coolant supply and removal system (not shown).

The membrane 8 is made, for example, from a dense woven material and through the dielectric nozzles 9 and 10 communicates with the system of discrete 1 supply and removal of fresh water from the membrane band.

The electrode 11 is made in the form of a rod and is placed coaxially in the cavity of the membrane 8 with electrical insulation.

A constant electric power source 12 with an adjustable voltage of 60-220 V; This pole is connected to circulating glass 7 and grounded.

Appapat can be used to extract aerobic microorganisms with the ability to provide

40

the electrode 11 is connected to the source 12 as an anode, and the circulation one, the cup 7 is connected to the source as the cathode and through the water in the cavity of the membrane 8, and the medium in the cup 7 is passed a constant electric current of density 1-; ; ten; A / m In the process of electrolysis, negative ions of water and salts are removed from the medium into the cavity of the membrane 8, from where they are filled with water that passes through the cavity of the membrane.

The positively charged water ions are transferred by electric current from the cavity of the membrane 8 to the culture medium, where they are discharged on the surfaces of the cyclating cup 7, alkalizing the medium. Electrolysis process. are in the mode of stabilizing the pH of the medium in the region optimal for the viability of microorganisms, for example 5-7. The current density passed through the medium is regulated by the voltage of the direct current source 12 in the range of 60-220 V, depending on the electrical resistance in the circuit electrolysis.

45

50

During cultivation, microorganisms that increase the pH of the medium during vital activity, electrode 11 is connected to source 12 as a cathode, and circulation tank 7 is connected to a source as an anode. Electrolysis is carried out by ensuring that positively charged ions and The discharge on the circulating glass is 55 negative ions. Thus, the pH of the medium is lowered and stabilized in the optimal range of values. In the process of work

stabilizing the pH of the nutrient medium in the optimal area, regardless of its buffering properties.

The device works as follows.

The capacity i filled to a certain level with the culture liquid through the aerator 5 is supplied with air, which is dispersed in the liquid and forms a gas-liquid mixture in the circulation cup 7. Fresh water is fed through the nozzle 9 into the cavity of the membrane 8, which is discharged through.

spout 10. When cultivating microorganisms, which in the process of vitality rush the pH of the medium,

spout 10. When cultivating microorganisms, which in the process of vitality rush the pH of the medium,

the electrode 11 is connected to the source 12 as an anode, and the circulation one, the cup 7 is connected to the source as the cathode and through the water in the cavity of the membrane 8, and the medium in the cup 7 is passed a constant electric current of density 1-; ; ten; A / m In the process of electrolysis, negative ions of water and salts are removed from the medium into the cavity of the membrane 8, from where they are filled with water that passes through the cavity of the membrane.

The positively charged water ions are transferred by electric current from the cavity of the membrane 8 to the culture medium, where they are discharged on the surfaces of the cyclating cup 7, alkalizing the medium. Electrolysis process. are in the mode of stabilizing the pH of the medium in the region optimal for the viability of microorganisms, for example 5-7. The current density passed through the medium is regulated by the voltage of the direct current source 12 in the range of 60-220 V, depending on the electrical resistance in the circuit electrolysis.

During cultivation, microorganisms that increase the pH of the medium in the process of vital activity, electrode 11 is connected to source 12 as a cathode, and circulation tank 7 is connected to a source as an anode. Electrolysis is carried out to ensure that positively charged ions from the medium enter yes on the negative negative circulation cup. Thus, they provide a decrease in the pH of the medium and its stabilization in the optimal range of values. During operation of the device, the pH of the medium is controlled by means of a pH meter.

The heat released by the electrode 11 is removed with water flowing through the cavity of the membrane 8, and the biological heat from the culture medium is removed by means of water passed through the heat exchange jacket of the glass 7.

Compared to the known, the proposed design of the apparatus has a higher productivity due to the stabilization of the pH of the culture medium, which is carried out by electrolysis of the medium without the introduction of pH stabilizing chemical reagents. In addition, the passage through the environment of a constant electric current with a density of 1-10 A / m and the formation of water in the catholyte medium stimulate the viability of microorganisms and increase the biomass yield.

Sostotitel.N, Osipov editor N.Kishtulinets Tehred L. Serdyukor Proofreader: A...Zimokosov

Order 3540/27 Circulation 499. Subscription. VNIIPI USSR State Committee for Inventions and Discoveries 4/5, Moscow, Zh-35, Raushsk nab. 113035

Production and printing company, Uzhgorod, st. Design, D

Claims (1)

Invention Formula A device for growing microorganisms, containing a container with technological nozzles, an aerator located in its lower part and a circulation cup installed above it with a heat exchange jacket, is also distinguished by the fact that, in order to increase productivity by stabilizing the pH culture medium and lower-. nor is the consumption of chemical reagents, the tank is equipped with a device for electrolysis of the culture medium containing a semipermeable membrane, made in the form of a sleeve with nozzles for supplying and discharging water, which is located coaxial to the circulating glass, and two electrodes, one of which is mounted inside the sleeve and connected to one of the poles of the source of electrical power, and the other electrode is a circulation cup connected to the other pole of the source.