SU536195A1 - The method of controlling the molecular weight distribution of the polymer in the process of producing polybutadiene - Google Patents

Claims (3)

The molecular weight distribution of the full measure is measured at the exit of the battery and, if the molecular weight deviates from the specified molecular weights and the weight content of the high molecular weight fractions of the polymer, the intermediate parameter of the process and the cost of the titanium catalyst component and the slip in the first battery reactor will change from the specified molecular weight and weight content of the medium molecular and low molecular weight fractions of the polymer change the values of intermediate parameters of the process, the costs the titanium catalyst component, for example, titanium diiodide (DDT), and the charge, respectively, in one of the middle and last battery reactors. In addition, the regulation of molecular maosa and the weight content of polymer fractions is carried out by varying the charge expenses: Battery reactors, where no catalyst components are fed. iB As an intermediate process parameter, Mooney viscosity is used. The drawing shows a flowchart for adjusting the MWD of the polymer during the production of polybutadiene. The mixture is fed to the first five reactors of the battery, and the catalyst components to the first, third and fifth reactors. The polymer synthesized in each reactor passes all subsequent battery reactors. The charge of the reactor is stabilized with the help of the regulators РРш1, РРшп, РРш1П, РРш1у and РРщу (not shown), information on the costs of which are supplied from the sensor to DRSh1 DRshp, DRshsh, DRSh1U and DRShu (not shown). The consumption of the aluminum component of the catalyst in the first, third, and fifth reactors is stabilized with the help of the regulators РРлг, РРлп and РРлу, information on the costs that come from the sensors ДРд, ДРлп and Дрлу. The costs of the other titanium component of the catalyst are stabilized in these reactors with the help of regulators РРп, РРтгп and РРту, information about costs, which come from sensors ДРть ДРтщ л ДРту. The first, third, and fifth battery reactors with PWV, P.BV regulators stabilize the viscosity of the polymerizate, which is measured with the aid of sensors DVA DVS, DVu. Stabilization of the specified viscosity is carried out by changing the tasks to the PPM, PPAui and PPD controllers. At the output of the battery, the DMR of a polymer is measured using a DMR sensor, information about which is supplied to a logical computing device (LVU). This device calculates the weight content of the high molecular weight fractions of the polymer above a given value of the molecular weight, and, if it is a weight content greater than a specified value, using the LVU reduces the reference to the PPP controller (or PPSR and RRsh regulators), for example, proportional to the deviation of the weight content from a given value, with a simultaneous decrease (with smaller proportionality coefficients) of the tasks to the PPT controllers | and PB (. With an insufficient weight content of high molecular weight polymer fractions, setting the PPP1 and PBi regulators to increase. In a number of cases, setting the PBi controller can be left unchanged. This also applies to: The PPri controller, with minor deviations from the specified - weight content of high molecular weight fractions. If, for a given weight content in a high molecular weight polymer fraction, a certain amount of polymer is contained with a molecular weight exceeding a specified limit value (for example, 700 10), increase giving the PPT1 controller and reducing the setting of the PBA controller And here, in a number of cases, setting the PB controller can be left unchanged .Weights of the medium molecular weight and low molecular weight fraction | the polymer is calculated within a given range of molecular weight change (for example, 200-400 -10) and the excess or deficiency of this weight (Content using the LVU form control effects by changing the stabilized charge and the titanium component of the catalyst and the viscosity of the polymerizate in the third reactor, and if necessary, the change in the charge of the charge in the fourth reactor of the battery. So, for example, with an excess weight content of medium molecular polymer fractions, the tasks of the PPmiH regulators (or RRshig and RRschu), RRti and RVi are reduced. transfer to a high molecular weight polymer (in this case, a polymer with a molecular weight of more than 400). At the same time, the weight content of the medium molecular weight fractions of the polymer does not require that the RPS and Pni regulators increase their size. The molecular weight of the polymer molecular weight fractions changes the setting of the PPH and PTH regulators. The weight content of the low molecular weight polymer fractions of the LVB is determined by the fraction content below the specified molecular weight, and depending on this value, the control actions are generated by changing the stabilized costs. the charge, the titanium component of the catalyst, and the viscosity of the polymerizate in the battery's fifth reactor. For example, if it exceeds: the value of this weight content is given assign tasks to the PLCs and PPrv controllers and increase (or leave unchanged) the settings to the PBA controller. With an insufficient weight content of low molecular weight fractions and polymers, setting the regulators PPrchu and PPiv increases, and the РВ regulator V- decreases. If, for a given weight content in low molecular weight polymer fractions, a certain amount of polymer with a molecular weight below a specified limit value (e.g. 50-10) is contained, reduce the setting to the PPA regulator and increase (or leave unchanged) the setting to the regulator Improving uniformity and, therefore, the quality of the polymer in the proposed method is due to the stabilization of the MMP polymer. Claim 1. Method for controlling the molecular mass distribution of polymer in the process of polybutadiene production in a battery of series-connected reactors, where charge and catalyst components are fractionally supplied, by stabilizing an intermediate vapor: a process polymer, viscosity of a polymerizate in reactors — by affecting the consumption of aluminum catalyst component, characterized in that, in order to stabilize the quality of the polymer obtained, the molecular weight distribution of the polymer is measured at the output of the battery The measurement of the intermediate process parameter and the cost of the titanium catalyst component and the charge in the first battery reactor, when the deviation from the specified molecular weight and weight content of the high molecular weight fractions of the polymer, and low molecular weight polymer fractions change the values of the intermediate process parameters, the cost of the titanium component: catalphator and charge, respectively, in one of the averages and the last battery reactors. 2. A method according to claim 1, characterized in that the regulation of the molecular weight and the weight content of the polymer fractions is carried out by changing the charge rates in the battery reactors where the catalyst components are located. 3. Method according to paragraphs. 1 and 2, characterized in that the Mooney viscosity of the polymer is used as an intermediate process parameter. Sources of information taken into consideration during the examination: 1. USSR author's certificate No. 398554, M. Cl. From 08 1/00, 1970 2. USSR author's certificate number 412204, M. Cl. C 08d 1/04, 1971 3. USSR author's certificate number 386666, M. Cl. G 05d 21/00, 1970 (prototype).