SU381068A1 - METHOD OF MANAGING THE POLYMERIZATION PROCESS - Google Patents

Description

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There is a known method of automatically controlling the polymerisation process in a liquid carrier, which is connected in series in a cascade of reactors with different predetermined sources and Lolmer concentration, by adjusting the amount of heat removal by the cooled carrier.

The proposed method differs from the known one in that, in order to provide a predetermined value of the polymer concentration in each reactor, the process temperature is stabilized by varying the flow rate of the liquid carrier, the temperature of which is selected depending on the flow rate of the carrier and the flow rate of polymer coming from the previous leaKTopa.

The drawing is a schematic diagram of the automatic control of the polymerization process.

The polymerization process takes place in a cascade of series-connected reactors /, each of which, via line 2, supplies liquid carrier with monomer dissolved in it "through line 3" polymer solution in the carrier with monomer dissolved in it. The solution obtained in the reactor according to the "1" measure in the carrier with the dissolved monomer with catalyst residues via line 4 is transferred into the next cascade reactor. The heat of reaction is removed by means of a cooling jacket, to which coolant is led through the co-pipe 5. T & in the reactor is stabilized by a regulator 6 for varying the flow rate of the carrier and regulator 7 of the stabilizing circuit 8. High accuracy of maintaining the temperature of the carrier is provided by the heat exchanger 9 and control valves 10 and / i /.

The automatic control system operates as follows.

If the speed in the reactors has decreased (for example, due to an increase in the amount of harmful impurities in the carrier or monomer), the amount of heat released in the reactor will decrease and the temperature in the reactor will begin to decrease. At the same time, a decrease in the flow from the previous reactor will lead to an increase in the concentration in the reactor if the predetermined concentration value in the previous reactor is lower and to a decrease in the polymer concentration in the reactor if the specified concentration value of the polymer in the previous reactor is larger. The temperature controller 6 will begin to reduce the reference to the controller 7, which will lead to a decrease in the flow in the pipe 2 and, as a result, the temperature in the reactor will return to the specified value.

The determined relationship between the carrier flow rate and its temperature is realized by the functional unit 12 and the block 13. The signals from these blocks are summed by the block 14.

The change in the flow rate of the tube in the pipeline 2 through the functional unit 12 and the change in the flow rate in the pipeline 3 through the functional block 13, summed up in the block 14, changes the temperature of the flow in the pipeline 2 so as to ensure the stabilization of the specified polymer concentration in the reactor 1. When Thereby, the concentration of the polymer is achieved by providing a certain functional relationship between the flow rates of the notes in the pipelines 3 and 2 and the temperature of the flow in the pipe 2.

Subject matter

The method of controlling the polymerization process in a liquid carrier passing in a cascade of successively connected reactors with different polymer concentration setpoints by means of adjusting the tenloscale amount by cooled carrier, characterized in that, in order to provide the desired polymer concentration in the reactor, the process temperature is stabilized by changing the flow rate liquid carrier, the temperature of which is chosen depending on the consumption of the carrier and the polymer flow coming from the previous ktoru.

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