SU1071673A1 - System of automatic control of pulp digestion temperature in periodic-action digesters - Google Patents

Abstract

THE AUTOMATIC REGULATION OF THE TEMPERATURE OF COOLING PULP IN THE BOILERS OF PERIODIC ACTION, comprising a cooking liquid temperature sensor connected to the first inputs of the temperature regulator and the control unit, the program setting of the cooking liquid, which is connected to the temperature regulator's input, connected to the temperature control input of the temperature regulator and the control unit, the output controller with the temperature controller and the control unit of the cooking liquid, with the target temperature control and temperature control unit control unit, a steam supply device connected to the second output of the control unit, the second input of which is connected to the temperature controller output Lead, and the setpoint generator, from This means that, in order to improve the control accuracy, the third control unit is connected with the third input of the temperature controller, and the setpoint control device is connected to the second input of the programming setpoint and the third input of the control unit. (L o ch1 00

Description

The invention relates to pulp and paper production. A known system for automatically controlling the cooking temperature of cellulose in batch boilers, comprising a temperature sensor for the cooking liquid, is connected to the first inputs of the temperature controller and the control unit, a software setpoint, the output of which is connected to the second input of the temperature regulator and the input of the program setpoint is connected to the first the output of the control unit, the steam supply device connected to the second output of the control unit, the second input of which is connected to the output of the temperature regulator, and the Hz sensor I. A disadvantage of the known system is low control accuracy. . The purpose of the invention is to improve the control accuracy. This goal is achieved by the fact that, in an automatic temperature control system, varcrone cellulose in intermittent boilers contains a cooking liquid temperature sensor connected to the first inputs of the temperature regulator and control unit, a software setpoint whose output is connected to the second I input of the temperature regulator and the input of the program setting device is connected to the first output of the control unit, the steam supply device connected to the second output of the control unit, the second input of which is connected to the output by the regulator and temperature, and beyond. the sensor, the third output of the control unit is connected to the third input of the temperature regulator, and the control unit is connected to the second input of the software program and the third input of the control unit. The drawing shows a block diagram of a system for automatically adjusting the temperature of pulping in batch boilers. The system contains a temperature sensor 1 connected to the first inputs of the temperature regulator unit 2 and the control unit 3, the first output of which is connected to the second input of the unit 2, and the input of the programming setpoint 4 is connected to the first output of the control unit 3, the steam supply device 5 connected to the second output of the control unit 3, the second input of which is connected to the output of the temperature controller 2, and the setting device 6, the temperature sensor 1 is installed in the circulation circuit, including the boiling boiler 7, the circulating pump 8, the heat exchanger 9 and connecting their pipelines. Moreover, the third output of the control unit 3 is connected with the third input of the temperature regulator 2, and the setting device 6 is connected with the second input of the control unit 4 and the third input of the control unit 3. The device works as follows. The signal from the setting device 6 is fed simultaneously to the input of the programming setting device 4 and through the control unit 3 to the steam supply device 5. Since the relationship between the rate of temperature rise and steam consumption in the general case can be non-linear, the steam supply device 5 contains a block of non-linearities through which the signal from the setpoint b passes, an adder in which the signals from the non-linearity block and the temperature regulator block 2 are summed up. and represents, for example, an automatic steam flow control circuit, the setting of which is formed by the output signal of the adder. Software setting unit 4 contains an integrator, the rate of change of the output signal of which is proportional to the output value of the setting unit b, and an accelerated output signal generation scheme with a very small (fraction of a second) constant time. Before starting the system, the control unit 3 sends a signal from the temperature sensor 1 to the input of the program setting device 4 and, using the accelerated output signal shaping scheme, the software setting device 4 enters the signal tracking mode From the temperature sensor 1, the temperature control unit 2 is balanced by the input signals, and its output is disconnected from the adder of the steam supply device 5. When starting the system, device 5; the steam supply is set to the flow rate corresponding to the output signal of the sensor b, and the software control unit 4 continues to remain in the mode of tracking the temperature sensor signal .1, changing the temperature. in the first moments of time after the start of heating of cold chips in a chaotic way. After some time, determined by the pumping time through the circulation system, the volume of cooking liquid equal to the boiler volume, the input program setpoint 4 by the control unit 3 is disconnected from the output of temperature sensor 1 and connected to the output of setpoint b, the output of unit 2 of the temperature regulator is connected To the input of the adder of the steam supply device 5, at the output of the programming unit 4, a signal is generated, the rate of change of which corresponds to the required rate of temperature rise. With

510716734

presence rassoglesovaniya between set-}. Application of the proposed system

actual speed should increase the accuracy of control

temperature rise by the unit 2 by the regulation cooking temperature schedule by

the torus temperature through the block 3 control-increase static and dynamic

laziness and device 5 for supplying the signal of the task.

the required flow rate will be set to 5 ° according to the temperature rise rate

a pair that provides signaling. due to this increase the yield of cello

La on the speed of lifting. tem.lozy on 1 m of chips with given staPeratura. very good quality indicators.

Claims (1)

AUTOMATIC SYSTEM CELLULOSE COOKING TEMPERATURE CONTROL IN PERIODIC BOILERS, containing a cooking liquid temperature sensor connected to the first inputs of the temperature controller and the control unit, a program controller whose output is connected to the second input of the temperature controller and the input of the program controller is connected to the first output of the control unit, device steam supply connected to the second output of the control unit, the second input of which is connected to the output of the temperature controller, and a setter, characterized in that, in order to increase To improve control accuracy, the third input of the control unit is connected to the third input of the temperature controller, and the controller is connected to the second input of the software controller and the third input of the control unit.