SU574473A1 - System for automatic control of process of hydrolysis - Google Patents

Description

one

The invention relates to the field of production of sugar and syrups from wood, peat, etc., and specifically to systems for automatically controlling the process of gercolating hydrolysis of vegetable raw materials.

A known system of automatic control of the hydrolysis process includes the contours of software pressure control in the hydrolysis product, temperature of the cooking mixture, selection of the hydrolyzate and acid consumption, weight sensors of the hydrolyzate and cooking mixture consumption and an actuator on the feed line of the cooking mixture 1.

However, in the known system, the hydrolysis process is controlled by a rigid program, which does not allow for the critical changes of important parameters, such as acidity, the consumption of the cooking mixture, etc., affecting performance, and does not allow for optimal process control. with the organization of an open cooking cycle. In addition, a disadvantage of the known control system is the lack of a liquid level stabilization circuit in the hydrolysis unit.

The purpose of the invention is to improve the accuracy and reliability of the control system.

The goal is achieved by the fact that the system of automatic control of the hydrolysis process, including the contours of the programmed pressure control in the hydrolysis product, the temperature of the cooking mixture, selection of the hydrolyzate and acid consumption, weight sensors of the hydrolysinate and the consumption of the cooking mixture and the actuator on the feed line of the cooking mixture, is equipped with a liquid level sensor in the hydrolyzapiarate, connected by means of a regulator to the actuator on the cooking mix feed line, and the mash consumption meter, and the contact The regulated hydrolysate is equipped with an adder and a shut-off valve status sensor, the weight sensor is connected by means of a differential unit with a negative input of the adder, the positive inputs of the latter are connected to acid consumption and cooking mixers, and the output of the adder is connected to the valve connected to the sensor of the state of the shut-off valve; the regulator of the flow rate loop of the acid is connected to the mash and cooking mixture flow sensors by means of an adder.

The drawing shows schematically the proposed system of automatic control of the hydrolysis process.

The system contains the following software control loops.

The pressure in the hydrolysis apparatus, consisting of a pressure sensor 1, connected to the program controller 2, the output of which is connected to the actuator 3 on the steam supply line to the hydrolysis device 4.

Cooking mixture temperatures, including a temperature sensor 5, connected to the controller 6, the output of which is connected to the actuator 7 on the heating steam supply line to the pipe heater 8.

The selection of the hydrolyzate, containing the sensor 9 of the weight of the hydrolyzate, connected to the regulator 10, the output of which is connected with the actuator AND on the selection line of the hydrolyzate from the hydrolyzate; an adder 12, the negative input of which through the differential unit 13 is connected to the sensor 9, the positive inputs are connected to the acid consumption sensors 14 and the cooking mixture consumption 15, and the output is connected to the regulator 10 with the help of the valve 16 connected to the stop valve state sensor 17 .

Acid consumption, consisting of sensors 15 consumption of the cooking mixture and 18 consumption of the mash, connected by exits to the inputs of the adder 19, the output of which and the output of the sensor 14 of the acid consumption are connected to the input of the regulator 20 of the flow rate. The output of the regulator 20 is connected to an actuator 21 installed on the acid supply line to the hydrolyzate apparatus.

The stabilization of the liquid level in the hydrolysis apparatus, which ensures the elution of sugars from the total volume of the loaded raw material and consists of a liquid level sensor 22 in the hydrolysis apparatus, the output of which is connected to the inlet of the regulator 23 connected to the output of the actuator 24 installed in the feed line of the cooking mixture to the hydrolysis apparatus.

To regulate the level of a liquid, a circuit with an electrocontact sensor can be used for on-off control of the level of separation of two media.

The system of automatic control of the hydrolysis process works as follows.

The signals from the sensors 15 consumption of the cooking mixture and 18 consumption of the mash enter the adder 19. The sensor from the weight sensor 9 goes to the differential unit 13 and further to the adder 12, the output of which is connected to the input of the valve 16 connected to the output of the regulator 19. Output signal the regulator 10 is fed to the actuator And installed on the line selection of the hydrolyzate. The control signal supplied to the valve 16 is a signal from the sensor 17 of the state of the shut-off valve installed on the hydrolyzate extraction line from the hydrolyzate. If the valve is closed, which corresponds to the absence of flow

of the hydrolyzate, the signal from the sensor 17 is zero, and the valve 16 does not pass the signal from the adder 12 to the input of the regulator 10. The input signal to the regulator is also zero. In the case of the selection of the hydrolyzate signal from the sensor

17 corresponds to one, and the signal from adder 12 through clanan 16 is fed to the input of regulator 10.

The proposed system for automatic control of the hydrolysis process allows for its prompt and effective regulation.

Claims (2)

1.Fnrpovich V.S. Automation of hydrolytic sulphite production and processing liquors. M., 1967. 2. A.Ahmetov, A.A., et al. Development of ATS for optimal control of the hydrolysis process. - “Warriors of Cybernetics, vol. 57. Tashkent, 1973.