RU2014104942A - METHOD FOR INCREASING THE EFFICIENCY OF MANAGING THE PROCESS OF OBTAINING A BOTTIL RUBBER - Google Patents

Abstract

A method of increasing the efficiency of controlling the process of producing butyl rubber obtained by copolymerization of isoprene and isobutylene dissolved in an inert solvent in the presence of a catalyst in a plant including a mixer, refrigerator, reactor, degasser, which are interconnected by pipelines using control loops consisting of sensor controllers and valves : - expenses of isoprene, isobutylene, conditionally inert and activated solvent, charge, catalyst; - level and consumption of refrigerant in the refrigerator ike and the reactor, the degassing of steam in the temperature sensor and the concentration of the charge, the temperature in the polymerizer and degassing; connected to the controllers correction isoprene costs isobutylene, relatively inert solvent, and the refrigerant vapor; characterized in that - continuous flow sampling of the catalyst and the mixture for the polymerization test reaction in the small flow polymerizer is carried out, - the temperature of the polymerization reaction in the small flow polymerizer is determined and the measurement results are fed to the control unit for the preparation of the catalyst and charge, - the physical mechanical characteristics of the finished polymer and enter the results of all measurements into the control unit for the processes of preparation of the catalyst and the mixture, analyze the data x in the control unit and, in accordance with the program, the control unit gives commands to change the ratio of components in the catalyst and charge; - activate in the cavitator * before feeding part of the solvent — CHCl used in the catalysis preparation process to the main polymerization unit

Claims (1)

A method of increasing the efficiency of controlling the process of producing butyl rubber obtained by copolymerization of isoprene and isobutylene dissolved in an inert solvent in the presence of a catalyst in a plant including a mixer, refrigerator, reactor, degasser, which are interconnected by pipelines using control loops consisting of sensor controllers and valves : - expenses of isoprene, isobutylene, conditionally inert and activated solvent, charge, catalyst; - the level and flow rate of the refrigerant in the refrigerator and in the reactor, steam in the degasser, temperature sensors and the concentration of the mixture, temperature in the polymerizer and degasser; connected to the controllers with flow rate correction of isoprene, isobutylene, conditionally inert solvent, refrigerant and steam; characterized in that - produce continuous in-line sampling of the catalyst and the mixture for the polymerization test reaction in a small flow polymerizer, - conduct the determination of the temperature of the polymerization reaction in a small flow-through polymerization device and submit the measurement results to the control unit for the preparation of the catalyst and the mixture, - carry out the determination of the physico-mechanical characteristics of the finished polymer and enter the results of all measurements in the control unit for the preparation of the catalyst and the mixture, - analyze the data in the control unit and, in accordance with the program, the control unit issues commands to change the ratio of components in the catalyst and charge; - carry out activation in the cavitator * before feeding to the main polymerization part of the solvent — CH ₃ Cl used in the preparation of the catalyst and the mixture; - the activated part of the solvent after the cavitator * is constantly fed into the main polymerization agent *, - using a magnetic pulse installation, cyclically perform a mechanical-pulse effect on the tubes of the cooling system and the casing of the polymerization unit, cleaning the outer surface of the tubes and the internal mirror of the polymerization apparatus from adhering polymer to keep the heat transfer coefficient of the surface of the tubes of the cooling system and maintaining the required temperature of the polymer suspension in main polymerization unit.