SU662579A1 - Method of automatic control of microorganism cultivation process - Google Patents

Description

(54) METHOD FOR AUTOMATIC CONTROL OF THE CULTIVATION PROCESS OF MICROORGANISMS

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The invention relates to the microbiological, food and medical industry and can be used, in particular, for the production of live vaccines.

A known method of automatically controlling the cultivation process of microorganisms involves measuring dissolved oxygen and regulating the pH value of the medium, the number of revolutions of the dowser, feeding the nutrient medium components and feeding air to the aeration 1.

A disadvantage of the known method is that the regulation of the microbiological process is carried out on the basis of secondary features - oxygen consumption, the magnitude of which is influenced by various cultivation factors that change the oxygen consumption of the microbial cell (temperature, pH of mixing, etc.). As a result, there are inaccuracies in the regulation process.

The aim of the invention is to improve the accuracy of control.

The goal is achieved by regulating the magnitude of the redox potential and determining the magnitude of the increase in the concentration of living organisms and the ratio of the concentration of living organisms to the concentration of biomass, and regulation of the pH of the medium, the redox potential, components of the nutrient medium, the number of revolutions of the agitator and air supply Aeration is carried out taking into account the magnitude of the increase in the concentration of living organisms and the ratio of the concentration of living organisms to the concentration of biomass.

The drawing shows a diagram illustrating the implementation of a method for automatically controlling the cultivation process of microorganisms.

Claims (1)

The diagram shows a fermenter 1 with a stirrer 2 and a drive 3, which is the actuator for controlling the rotation of the stirrer, with a barb, with a terrain 4 for air supply. The fermenter 1 is equipped with sensors 5-7 respectively dissolved oxygen, pH and redox potential and measuring unit 8 for nutrient media, as well as unit 9 for measuring the total biomass concentration, for example, an optical device, and unit 10 for measuring the concentration of live microorganisms and the concentration increase. living microorganisms. The confection of microorganisms can be determined, for example by the color method. The essence of the method consists in periodic sampling of the medium with microorganisms from the fermenter 1 into the thermostated incubator 11, to which the reagent is added from the tank 12, which changes its color under the action of living microorganisms (for example, methylene blue). The degree of discoloration depends on the number of live microorganisms. Then the sample from incubator 11 enters unit 10 measuring the concentration of microorganisms and the increase in the concentration of live microorganisms. Blocks 9 and 10, measuring the total biomass concentration and the concentration of living microorganisms, are connected to Comparative Block 13, where a relationship is established between the concentration of living organisms and the concentration of biomass. The listed measurement units are connected to the signal analysis unit 14 and the program control unit 15, on which the culture parameters program in the farm center 1 is set. To perform the proposed method, the signal analysis unit 14 contains an electronic computing machine that processes the signals from the measurement units. The correction signal is a signal from the comparator unit 13 and the unit 10 for measuring the increase in the concentration of living microorganisms. The software control unit 15 is connected to the command supply unit 16, the commands from which are sent to the executive mechanisms 3.17-20 of the control of the rotation of the clevis 2, the pH of the medium, restored to the potential, supplying the components of the nutrient medium Air flow is correspondingly. The method is carried out as follows; The signals from the measurement units of culture parameters and the content of nutrient medium components, as well as from unit 13 comparing the ratio of the concentration of living microorganisms and total biomass and the unit 10 for measuring the increase in the concentration of living microorganisms enter the signal analysis unit 14. The Corrective Synthesis including analysis block 14 serves as signals from Blocks 13 and 10 comparing the ratio of the concentration of living microorganisms to the concentration of biomass and measuring the increase in K0 nCitration of live microorganisms. In the event of deviations in the ratio of the concentration of living microorganisms to the concentration of biomass from a unit and a negative increase in the concentration of living microorganisms, the analyzing system proceeds to the analysis of signals from measuring units. If any of the parameters deviates from the one specified in program block 14 or when the content of nutrient components decreases, commands are sent through block 16 and the actuators are corrected or a command is given to introduce nutrient medium components. The adjustment is made to those times, until the ratio of con, 1, concentration of living microorganisms to the concentration of biomass reaches unity, and the increase in the concentration of living microorganisms becomes greater than zero. After this, the analysis of cultivation parameters is stopped until a new violation of the ratio and sign of the increase in the concentration of living microorganisms. In case of violation, the adjustment process is repeated according to a predetermined program 1 1 to the required ratios. Thus, the adjustment of the cultivation process is carried out in relation to the concentration of living microorganisms to the concentration of biomass and the increase in the concentration of living microorganisms that are the most sensitive and clearly respond to changes in cultivation factors. The invention method for automatic control of the cultivation process of microorganisms, including measurement of dissolved oxygen and regulation of the pH of the medium, the number of revolutions of the agitator, the supply of nutrient components and the air supply to the aeration, characterized in that, in order to improve the accuracy of control, regulate the magnitude of the redox potential and determine the magnitude of the increase in the concentration of living organisms and the ratio of the concentration of living organisms to the concentration of biomass, and The pH of the medium, the redox potential, the components of the nutrient medium, the number of revolutions of the agitator and the air supply for aeration are regulated with regard to the magnitude of the increase in the concentration of living organisms and the ratio of the concentration of living organisms to the concentration of biomass. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 352562, .cl. From 12 to 1/08 1971. one 662579