SU988825A1 - Device for automatically controlling batch suspension polymerization - Google Patents

Description

the valve, the output of the first alarm relay through the third remote control panel is connected to the first, second and third shut-off valves 2.

The disadvantages of this device are low dynamic ha (the characteristics at the moment the polymerization reactor is put into operation when the initiator activity fluctuates. This is due to the fact that the reactor is put into operation at a constant setting of the main controller (supplied from the first remote control panel). ). At the same time, the main controller implements the P-law of regulation and is adjusted in such a way as to ensure the supply of a sufficient amount of cooling water to the circulation line at the most Nominal pressure in the reactor (the highest initiator activity) .This ensures that the reactor goes to normal mode. However, with a lower initiator activity, it is possible to slow down the reactor output by supplying an excessive amount of cooling water (it is even possible to quench the reaction, which necessitates reheating .

The purpose of the invention is to improve the dynamic characteristics of the device at the time of putting the reactor on mode.

This goal is achieved by the fact that a device for automatic control of a periodic suspension polymerization process, comprising an α-pressure sensor in a reactor, temperature sensors in a reactor and in a cooling water line, a switching relay, a main pressure regulator — temperature and an additional proportional regulator, three remote control panels. control, predator, three alarm relays, two regulating and three shut-off valves, as well as a regulating gauge, are additionally equipped with a program unit, eye and incorporating additional signaling relay having an input connected to the output relational shift, and output through the block incorporating software and connected to the dial cam specifying the main pressure regulator - temperature.

The first regulator is a regulator that implements the Piazak of regulation.

The device can be implemented on the basis of the Start system blocks as an auto operator, built on the pneumatic elements of the USEPL system.

The drawing shows a schematic diagram of the device.

The device contains a pressure sensor in reactor 1, a recording pressure gauge 2, temperature sensors in the reactor and cooling water 3 and 4, switching relays 5, controllers b and 7, remote control panels 8-1, precursor block 11, alarm relays 12-14, regulating valves 15 and 16, shut-off valves 17-19, polymerization reactor 20, circulation pump 21, alarm relay 22, switch-on unit 23 and programming setter 24 ..

The output of the pressure sensor in the reactor 1 is connected to the first input of the switching relay 5, the output of the temperature sensor in the reactor 3 is connected to the second

the input of the switching relay 5 and the alarm relay inputs 12 and 14. The output of the temperature sensor in the cooling water line 4 is connected to the input of the alarm relay 13 and to the reference controller chamber 7. The output of the alarm relay 14 is connected to the power input of the alarm relay 13, the output of which connected to the control input of the switching relay 5. The output of the switching relay 5 is connected to the input of the anticipation unit 11, the output of which is connected to the input of the main controller b and the input of the auxiliary alarm relay 22, the output of which is connected to input switch unit 23 is turned on. The switch-on unit 23 output is connected to the control input of the program setting unit 24, the output of which is connected to the load chamber of the main regulator 6. The output of the latter is connected to the input of the additional regulator 7, and through the remote control panel 8 to the control valve 15 The output of the auxiliary controller 7 is connected via a remote control panel 9 to the control valve 16. The output of the alarm relay 12 via the remote control panel 10 is connected to the shut-off valves 17-19.

The device works as follows.

After carrying out the preparatory operations: loading the reaction mass into the reactor 20, turning on the reactor's messenger, filling the circulating system with water and turning on the circulation pump 21 switches on the panel 10. put .in the position Automatic, opening the output from the alarm relay 12. At this, the system starts to work automatically.

In the initial state, the output signal from the alarm relay is 12 Rd ,, 1.0 kgf / cm. In this case, the normally closed valves 17 and 18 are open, and the normally open valve 19 is closed.

Claims (2)

1. Golub tnikov V.A. and Zhuvalov V, V Automation of production processes and automated control systems in the chemical industry M., Himi, 1979, p. 220-222, fig. 114  2. USSR author's certificate 284297, cl. C 08 F 2/18, 1965 (prototype).