SU1263269A2 - Method of automatic control of evaporation in multiple-effect evaporator battery - Google Patents

Abstract

THE METHOD OF AUTOMATIC CONTROL OF THE DEVELOPMENT PROCESS IN MULTIPLE STEAM INSTALLATION according to the author. St. No. 1001951, characterized in that, in order to increase the accuracy of stabilization of a given solids concentration at the unit output by increasing the control accuracy, the temperature in the condenser, the condensate consumption of the secondary steam and the evaporated liquid are additionally measured. The output of the plant and depending on the deviation of its value from the specified value, correct the flow rate of the circulating evaporated solution. (L Yu O with to about about with NJ

Description

The invention relates to methods for the automatic control of continuous technological processes, can be applied in the microbiological, food, chemical and pharmaceutical industry and is an improvement of the invention according to the author. St. No. 1001951.

The aim of the invention is to improve the accuracy of stabilization of a given concentration of solids at the outlet of the installation.

The drawing is a schematic diagram that implements a method for automatically controlling the evaporation process in a multi-unit evaporator.

The evaporator consists of evaporators 1-3 and a mixing tank 4. The pressure regulator 5 in the heating chamber of the evaporator 1 is connected to a control valve 6 on the coolant supply line. Sensor 7 of dry substance concentration at the inlet of the evaporator, unit 8 of the required dry substance concentration at the outlet, sensor 9 of pressure and sensor 10 of the temperature difference between the heat carrier and the evaporated solution in the first evaporator are connected to the recirculator 11 for setting the required flow rate of the circulating flow. The adder 11, together with the circulating flow rate sensor 12, is connected to the flow controller 13 connected to the valve 14. The output solids correction signal calculator 15 is also connected here. In turn, the unit 15 is connected to the setting device 8 and the computing device 16 connected to the flow sensors of one stripped off liquid 17, the secondary condensate 18 and the temperature 19 in the condenser 20, as well as to the sensor 7 concentration of dry substances at the inlet.

The control method is carried out as follows.

The signals from sensors 18, 7, 17, and 19 are fed to device 16, which calculate the indirect dry matter concentration at the evaporator outlet using the formula.

taken ao + aiB-f a2Ok + azOz-a4OkOz-a51k, (1)

where ao, a, az, az, a4, as - coefficients; in - the concentration of dry substances in the evaporated liquid.

OKOZ - the cost of condensate and one stripped off

liquids respectively; 1k is the temperature in the condenser. According to the result of the operation of the device 16 and the signal from the setting device 8, the device 15 determines, by the formula (2), the amount of the correction signal, proportional to the mismatch between the specified and calculated dry matter concentration multiplied by

LVB b (BV-BZ) (2)

The signal from block 15 is fed to adder 11, which calculates the setpoint of the value of the recirculation flow with regard to the described signal. The actual flow signal from sensor 12 is followed by regulator 13, which produces a control signal to control valve 14 on the recirculation flow.

As the concentration of solids increases at the outlet of the plant, the consumption of condensate increases and the evaporated liquid consumption decreases. This leads to an increase in the signal at the output of the device 16 and then at the output of the device 15 and, as a result, to a decrease in the setpoint signal from the adder 11 to the regulator 13 of the circulation flow rate. From the regulator 13 a signal will be given to cover the control valve 14. In this case there will be a decrease in the flow rate of the circulating flow and, consequently, a decrease in the concentration of solids at the outlet of the installation.

Accordingly, when reducing the concentration of solids at the outlet, the control effect on the opening of the control valve 14 will be given in a similar way.

The table shows the experimental test data on an industrial evaporator.

Table continuation

Claims (1)

METHOD FOR AUTOMATIC CONTROL OF VAPORIZATION PROCESS IN MULTI-CASE VEHICLE INSTALLATION according to ed. St. No. 1001951, characterized in that, in order to improve the stabilization accuracy of a given concentration of dry substances at the outlet of the installation by increasing the accuracy of regulation, they additionally measure the temperature in the condenser, the condensate flow rate of the secondary steam and one stripped off liquid, determine the concentration of dry substances at the outlet of the installation using the indicated parameters and depending on the deviation of its value from the set value, the flow rate of the circulating evaporated solution is adjusted. 1263269 A 2