SU1710578A1 - System for automatic control of batch process of microorganism growth in apparatus - Google Patents

Abstract

This invention relates to microbiology, in particular to the automatic control of the process of growing microorganisms in an apparatus. The aim of the invention is to increase the productivity of the apparatus for the periodic process of growing microorganisms in seconds to determine the optimal value of the concentration of microorganisms in the apparatus, corresponding to the maximum value of the selected criterion of optimality and maximum productivity of the apparatus and comparison with the current value of the concentration of microorganisms in the apparatus. 1 il.

Description

(L

with

nutrient substrate So and the seeding concentration of the microorganisms Xo, from setters 4 and 2 enter block 7 of the calculation of the economic coefficient Y in accordance with the expression

V - ° (

The So-S signal proportional to the calculated value of the economic coefficient Y enters block 8 of calculating the maximum value of the concentration of microorganisms Xt, the second and third input of which receive the values proportional to the initial concentration of the nutrient substrate So and the concentration of seeding of microorganisms Xo from setters 4 and 2. Block C calculates the maximum value of Xm of the concentration of microorganisms in accordance with the expression

Xm-Xo + Y -So. (2)

The obtained value Xm is fed to the input of block 9 for calculating the optimal value X of the concentration of microorganisms, the second and third inputs of which receive signals proportional to the value of the economic coefficient Y calculated in block 7 and the value of the kinetic coefficient, the saturation constant Ks, from the setpoint. In block 9, the optimal value of X is calculated by equation (3), which provides the maximum value of the selected criterion of optimality — the maximum productivity of the apparatus (F), corresponding to expression (4)

at 0, X Xm + Y Ksdt -V7

Ks (Xm + Y -KS);

max, (4)

where t is the duration of the process.

A signal proportional to the optimal (in the sense of the selected criterion) value of the concentration of microorganisms X is fed to comparison unit 10, where it is compared with the value corresponding to the current value of the concentration of microorganisms X in the apparatus coming from sensor 5 and the difference value is calculated. (5)

As long as the value of e is greater than zero, the output of block 10 will be zero and the input from control block 12 will not receive a signal from block 10. As soon as the value of B becomes equal to zero, which corresponds to the achievement of the maximum of the criterion (4), the output of block 10 is a turn of the signal equal to one.

which enters the control unit 12, the signal from which is supplied to the actuator 13 located on the biomass extraction line from the apparatus 1, the regulator opens and biomass is discharged from the apparatus 1. At the same time, the signal from the control block 12 block 10, will go to the program block 11 and disable the program that implements the technological regulations governing the end time of the process.

If in time, in accordance with the technological regulations, the current value of the concentration of microorganisms X in the apparatus 1: does not reach the value X, corresponding to the maximum value of productivity, i.e. e Oh, the command to drain from the device 1 will go to the actuator 13 with the program block 11.

Claims (1)

Invention System Automatic Control the process of periodically growing microorganisms in the apparatus, comprising a biomass concentration sensor, a control and program block, a concentration comparison unit, an actuator, installed on the biomass withdrawal line, from people who, in order to increase the productivity of the apparatus, it is equipped with control devices for seeding concentration of microorganisms in the apparatus, the initial concentration of the nutrient substrate, the saturation constant, sequentially interconnected by a sensor of the current concentration of the nutrient substrate in the apparatus unit for determining the economic coefficient, blocks the maximum and optimal values of the concentration of biomass in the apparatus, while the output of the last unit is connected to the input block compare current and optimal concentration of biomass in the apparatus, and input blocks of optimal concentration are connected to the outputs of the saturation concentration sensor and economic coefficient block, the inputs of which are connected to the initial concentration of nutrient substrate and the sensor of the current biomass concentration in the apparatus, and the inputs of the block determining the maximum biomass concentration connected to the control devices of the concentration of seeding microorganisms and the initial concentration of the nutrient substrate. Vd