SU524812A1 - Method of controlling continuous polymerization process of conjugated dienes - Google Patents

Claims (1)

The drawing shows a basic scheme for the automatic regulation of the molecular weight distribution. In reactors 1, 2, 3, 4, 5, polymers of high, medium and low viscosity according to Flour are obtained, respectively, which are mixed in the reactor 7 of the polymerization battery. A sensor 8 mounted on batteries measures the molecular weight distribution of the polymer or an indirect parameter characterizing it, for example, the Flour viscosity at 20 ° C in the production of SKD rubber, and provides this information to the regulating device 9, which, when the measurement deviates from a predetermined value, the setting by the flow controller 10 and 11, which stabilizes the catalyst supply, respectively in reactors 1 and 5, is varied (separately or simultaneously). Sensor 12, also installed at the battery outlet, measures the Mooney viscosity of the polymer (as usual). o, at 100 ° C) and supplying information to the controller 13, which, when the Mooney viscosity deviates from the specified value, changes the task to the flow controller 14, which stabilizes the supply of catalyst to the reactor 3. Claim 1. Process control method polymerization of conjugated dienes on Ziegler-Natta catalysts by stabilizing the molecular weight or Mooney viscosity of the resulting polymers by affecting the process parameters, such as catalyst feed or temperature in the reaction zone, the process being carried out in ex parallelly connected battery reactor groups to produce high, medium and low molecular weight polymers, respectively, and displacement of these polymers, characterized in that in order to obtain a final polymer with a given molecular weight distribution and increase the battery’s mean free path, molecular weight distribution of the final polymer at the output of the battery or an indirect parameter characterizing it, and if these values deviate from the given ones, the stabilized values change olekul molecular weight or Mooney viscosity of polymers in the two groups of reactors, wherein the polymers of high and low molecular weight. 2, the method according to claim 1, characterized in that, in order to stabilize the molecular weight or Mooney viscosity of the final polymer at the outlet of the battery, these parameters are measured and, when they deviate from the given, the stabilized value of the molecular weight is changed or Mooney viscosity of a polymer in a group of reactors where a polymer of average molecular weight is obtained. Sources of information taken into account in the examination: 1. US Patent No. 3256263, cl. 26O94 .9, 1966