SU396671A1 - DEVICE FOR STABILIZATION OF PARAMETER, - Google Patents

Description

one

The invention relates to the microbiological industry, more precisely: to devices for stabilizing a parameter that is controlled by two oppositely acting flows of substances, for example, pH during microbiological fermentation.

Devices of a similar purpose are known, containing a sensor of a parameter being stabilized, a regulator and regulating bodies of oppositely acting fluxes.

The aim of the invention is to improve the quality of regulation when systems operate in the area of small openings of regulatory bodies, as well as the accuracy and reliability of stabilization.

This is achieved by the fact that the device is equipped with two adders, one of which is designed to double the signal received from the controller, and the second to subtract a constant value of one from the double signal, the inputs of the adders are connected to the controller, and the outputs regulatory authorities.

The drawing shows schematically the proposed device for stabilizing a parameter regulated by two oppositely acting flows of substances, a general view.

The device contains a sensor / stabilizable parameter; regulator 2, affecting the consumption of acid or alkali through adders, respectively, 5 and 4 and regulating

valves 5 and 5, respectively, normally closed and normally open.

The chambers of adders 3 and 4 are supplied with a command signal from the output of regulator 2, the adder 3 being designed to double the signal received from regulator 2 and the adder 4 to subtract a constant value equal to one from the double signal from the setting device (not shown) .

The device works as follows.

With an increase in the acidity of the medium during the process, i.e. a decrease in pH, in reactor 7, the output of regulator 2 decreases. When the value of the output of regulator 2 becomes less than half of the maximum value, the output signal of adder 4 is zero, and the output signal of adder 3 has a value from maximum to zero, depending on the value of the output signal of regulator 2.

In this case, the normally closed valve on the acid supply is closed, and the normally open valve 6 on the alkali supply is open, as a result of which the alkali consumption increases and the parameter

results in a given value.

As the pH of the medium increases, the command signal at the output of controller 2 increases. The output of the adder 5 is also increased, and the valve 6 at the supply of alkali closes. The output signal of the adder 4 is still zero, and the valve 5 at the acid supply remains closed. When the output of the controller 2 becomes half the maximum value, the output of the adder 2 will be maximum and the valve 6 will close completely.

With a further increase in the command signal at the output of the controller 2 at the output of the adder 4, a signal appears that opens the normally closed valve 5 at the acid supply. The output of the adder 4 varies depending on the output of the regulator 2 and reaches its maximum (valve 5 fully open) with the maximum output of the regulator 2. The output of the adder 5 remains zero and the valve 6 is closed.

Thus, the control valves 5 and 6, which stabilize the pH of the medium, work alternately depending on the command signal at the output of the controller 2.

In the case of the reverse regulator 2, the valve 5 and the adder 4. must be supplied with an alkali, and the valve 6 and the adder 3 must be supplied with an acid.

Subject invention

A device for stabilizing a parameter regulated by two oppositely acting flows of substances, for example pH at

microbiological fermentation, containing a sensor of a stabilized parameter, a regulator and regulating bodies of oppositely acting fluxes, characterized in that, in order to improve the accuracy and reliability

stabilization, it is equipped with two adders, one of which is designed to double the signal received from the regulator, and the second to subtract from the double signal a constant value equal to one,

In this case, the inputs of the adders are connected to the controller, and the outputs are connected to the regulators.

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