SU260173A1 - METHOD OF AUTOMATIC REGULATION OF THE PROCESS - Google Patents

Description

The invention relates to a method for automatically controlling polymerization processes, for example, the process of solution polymerization of isoprene in the production of synthetic rubber.

There is a known method of automatic control of the polymerization process, according to which in order to obtain the maximum performance of a polymerization battery, the conversion value is measured for a given polymer quality and the catalyst supply is increased at a nominal value of this value against the nominal, while the conversion is increased against the nominal value. In a known method, the average molecular weight of the polymer is kept constant by changing the modifying feed of the molecular weight of the polymer.

In order to improve the quality of the polymer obtained, it is proposed to measure the average molecular weight or Mooney viscosity of the polymer at the maximum or specified capacity of the polymerisation battery, and to increase the initial monomer concentration in the reaction mixture when decreasing this value against the nominal value, and to increase the polymerisation temperature in the polymerisation monomers. batteries. At the same time, both with an increase in the initial monomer concentration, and with

Increasing the temperature in the reaction zone to maintain the desired polymer concentration in the polymerizer. Batteries should increase the supply of the reaction mixture by half a meter (in the case of maximizing productivity) or decrease the catalyst consumption (if it is necessary to keep the productivity at a predetermined level while minimizing the cost of the polymer).

Since prnn regulation of the average molecular weight or rate of viscosity uses two regulatory actions (a change in the initial monomer concentration and a temperature change in the reaction zone, the transition from one regulating effect to the other must be made not earlier than the first returns to its nominal value, and vice versa.

The drawing shows a block diagram, as described below.

When the average molecular weight deviates towards lower values from the nominal value of the marker / mark by means of switch 2, it includes a controller 5, which generates a signal to change the setting of controller 4 to the composition of the reaction mixture fed to the polymerization in the direction of increasing the monomer content in the reaction mixture . The controller 4 after receiving a signal from renal to a change in the direction of increasing the task to the controller 5 of the monomer consumption.

If the average molecular weight of the polarizer deviates towards higher values from the nominal, the first sign selector includes controller 6, which generates a signal to change in the direction of increasing the task to controller 7 of the temperature in the zone by the reaction. The regulator 7 brings the temperature in the reaction zone to a new value by increasing the temperature of the reaction mixture supplied to the polymerization. The transition from one regular airway, based on average molecular weight to another, is carried out not earlier than the first one returns to its nominal value, 1 and vice versa.

Any of these adjustments, (but their effects on average molecular weight, at the same time, increases the polymer concentration in battery battery polymerizers. To maintain it at a given level, the regulator 8, at an increase in polymer concentration, generates a signal that changes towards a decrease in the desired catalyst control regulator 9 (stabilizing productivity) or, on a change. towards increasing the task to the solvent regulator 10 (at maximizing the productivity). p 4 automatically increases the consumption of monomer to maintain the desired composition of the reaction mixture fed to the polymerization.

The limerization battery mode (stabilization or maximization of performance) is fixed by setting the Y / IB switch with the corresponding current level.

Subject invention

A method of automatically controlling the polymerization process carried out in an imitation battery by stabilizing the polymer concentration, characterized in that, in order to improve the quality of the polymer obtained at the maximum performance of the polymerization battery, the average molecular weight or viscosity of the produced polymer is measured , and with a decrease of this value against the nominal value, the initial monomer concentration in the reaction mixture is increased, and with an increase, the temperature increases in the polymerization Ator Polymerization Battery.