SU372549A1 - METHOD OF REGULATING THE RATIO OF THE COMPONENTS OF THE CATALYTIC COMPLEX - Google Patents

Description

one

The invention relates to methods for automatically controlling a continuous polymerization process, for example, in the manufacture of SKD rubber, with a separate supply of components of a catalytic complex by measuring the derivative of one of the process parameters for the consumption of one of the components of the catalytic complex with a stabilized supply of other components of the complex. This method can be used on process plants equipped with automatic heating and control systems in order to improve the quality of the product.

There is a method of controlling the ratio of the components of the catalytic complex in the process of continuous polymerization while stabilizing the monomer consumption by measuring the derivative of one of the process parameters for the consumption of one of the catalytic complex components.

The proposed method differs from the known one in that, in order to improve the stabilization properties of the polymer, the derivative of the viscosity of the polymerization is measured by the flow rate of one of the components of the catalytic complex and when it deviates from the specified value, the feed of this component is changed.

2

Dryness of the present invention consists in determining the derivative of the dynamic viscosity for the flow rate of one of the components of the catalytic complex, for example triisobutylaluminum, in the production of SKD rubber with a stabilized feed of the other component of the complex.

The proposed method is illustrated by a graph showing the nature of the dependence of the polymerization rate, the Mooney viscosity of the polymer and the dynamic viscosity of the polymerizate on the molar ratio,

used as components of the catalytic complex. Under industrial conditions, it has been established that to improve the properties of the obtained product, the ratio of compound1

nanovy catalytic complex on

T1

The kinetic curve (see the graph where the curv / is the Muni viscosity, curve 2 is the polymerization rate, curve 3 is the dynamic viscosity) must correspond to zone A, which is always to the right of the maximum. This zone is characterized by a certain value of the derivative of the dynamic viscosity for the consumption of triisobutylaluminum with the stabilized feed of the second component of the complex, i.e. with an increase in

in the case of polymerization, the concentration of ti1-flux-aluminum by changing the flow rate of this component of the complex, the dynamic viscosity should decrease by a certain predetermined value. If this exposure decreases the visamic viscosity by less than a predetermined amount, the regulating device will act in the direction of increasing the supply of triisobutylaluminum. If during this action the viscosity decreases to more than this target value, the regulating device will effect the effect of reducing the feed, triisobutylaluminum. The regulating device - will effect the change in the flow rate of triisobutylalumineum until the current value of the dynamic viscosity derivative is

the consumption of triisobutylaluminum is not equal to the specified value.

Subject invention

The method of retouching the components of a catalytic complex in the course of continuous polymerization of P1ri1 to stabilize the consumption of monomer by measuring the derivative of one of the process parameters on the consumption of one of the components of the catalytic complex, characterized in that, in order to improve the stabilization of polymer properties, the derivative of B. The CRUISES of the polymer in terms of the consumption of one of the components of the agglomerative complex and if it deviates from a predetermined value changes the feed of this component.

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