SU979381A1 - Method for automatically controlling concentration of isoprene in the batch - Google Patents

Description

The invention relates to the automation of polymerization processes and can be used in the production of stereoregular rubber in the chemical and petrochemical industries.

There is a method of automatically adjusting the concentration of isoprene in the charge by stabilizing the costs of isoprene rectified and the isopentane-isoprene fraction fed to charge 1.

However, this method is characterized by insufficient accuracy of stabilization of the concentration of isoprene in the mixture, since it does not take into account the concentration of isoprene in the initial streams of isoprene-rectified and isopentanisoprene fraction.

The closest in technical essence to the invention is a method of automatically controlling the concentration of isoprene in the mixture in the pro-; the process of obtaining isoprene rubber by measuring the concentration of isoprene in the mixture, as well as isoprene-rectified and isopentane-isoprene fraction supplied to the azeotropic drying column and the effect of the isoprene-rectified fraction and isopentane-isoprene fraction depending on the above parameters.

Rskhbdy isoprene-rectified and isopentane-isoprene fraction is also adjusted depending on the total consumption of the charge on polymerization batteries.

The disadvantage of this method is the low control accuracy.

10 isoprene concentration in the charge, the main reason for which is that the regulation of the concentration of isoprene in the charge is carried out only on reimbursement of isoprene consumption in

15 specified streams, and no adjustment is provided for the deviation of the concentration of isoprene in the charge from the specified value. The accuracy of the adjustment is also influenced by the significant determination of the total charge consumption by 20 jpeiijHOCTb, which consists of the errors of several charge consumption sensors.

The aim of the invention is to improve the accuracy of the automatic control of the concentration of isoprene in the mixture.

The goal is achieved by the fact that according to the method of automatic

30 isoprene concentration control

in the charge in the production of isoprene rubber by measuring the concentration of isoprene in the charge, as well as in the isoprenerectifate and isopentane-isoprene fraction, fed to the azeotropic drying column, and depending on the above parameters on the costs of isoprene-rectified and isentent-isoprene for a given concentration of isoprene in the charge and current concentrations of isoprene in isoprene-rectified and isopentane-isoprene fraction, the specified ratio of the costs of isoprene refined and isopentane-isoprene fraction corrected by the ratio of the deviation of the actual concentration of isoprene in the mixture from the specified value and affect the costs of isoprene-rectified and isopentane-isoprene fraction depending on the consumption of the charge taken from the azeotropic drying column, and the adjusted specified ratio of isoprene-rectified and isopropane dehydration and isopropane drying. isoprene fraction

The drawing shows the implementation of the proposed method.

Scheme 1 comprises the azeotropic dehydration column of the charge, the sensors 2 and 3 to measure the concentration of isoprene in the isoprene and rectified izopentanizoprenovoy fractions unit 4 for determining a predetermined ratio of isoprene rectified costs and izopentanizoprenovoy fraction correction unit 5 to a predetermined quantitative ratio of isoprene rectified and isopentane-isoprene fraction, sensor b for measuring the concentration of isoprene in the charge, sensor 7 for the charge flow taken from the bottom of the azeotropic drying column, blocks 8 and 9 for determining control air effects on the costs of isoprene-rectified and isopentane-isoprene fraction, regulators 10 and AND expenses of isoprene-rectified and isopentane-isoprene fraction; sensors 12 and 13 for the consumption of isoprene directive and isopentane-isoprene fraction, as well as valves 14 and 15.

A method of automatically controlling the concentration of isoprene in the mixture is carried out as follows.

The hydrocarbon charge containing 15-17 wt.% Isoprene is prepared by displacing at the inlet of column 1 azeotropic drying of isoprene-rectificate with an isoprene concentration of 70-95 wt.% And an isopentane-isoprene fraction with an isoprene concentration of 3-7 wt.%. In the azeotropic drying column, the mixture is cleaned of moisture, and a uniform distribution of isoprene is achieved throughout the solvent (isopentane).

The concentration of isoprene in the isoprene-rectified Su stream and the isopentanisoprene fraction Cg are measured by sensors 2 and 3, respectively. Signals from sensors 2 and 3 are fed to block 4, where, depending on the given isoprene concentration in the mixture Sc, the given ratio of isoprene is determined - rectificate and isopeitanisoprene fraction according to the formula

 Sc |, r-Cfi.

S

C-- C

shh

The received signal is fed to the first input of block 5 to correct a given ratio of costs of isoprene-rectified-and isopuite-isoprene fraction 5 The concentration of isoprene in the mixture SC is measured by sensor 6, the signal from which is also fed to the input of block 5 to correct the specified the ratio of costs of isoprene-rectified and isopentane-isoprene fraction. In block 5, the specified ratio S of the isoprene-rectified flow rate and the isopentane-isoprene fraction are adjusted depending on the deviation of the current concentration C from the specified value of Cs Correction, for example, according to the PI control law

t

0. E) (,.,) CH,

about .

where SjK is the corrected value of the ratio of the costs of isoprene-rectified and eisopentane-isoprene

fraction: K, K ,. - adjustment factors

constant values. The flow rate of charge Сш from the cube of column 1 is measured by means of sensor 7. Signals from block 5 and sensor 7 are fed to block 8, where the control effect on the consumption of recrystallized isoprene is given.

S3.k. - GUI

I.E

1 + s

3. to

The signal from block 8, as well as from sensor 7, is fed to block 9, where the control effect on the flow rate of the isopentane-isoprene fraction Gg f is determined.

8. F. 3 w Gy | .3

The signals from blocks 8 and 9 are fed, respectively, to controllers 10 and 11. The costs of isoprene-rectified and isopentane-isoprene fraction are measured using sensors, respectively 12 and 13, the signals from the feeds to the controllers, Correspondingly 10 and 11 The output signals from the regulators 10 and 11 are applied to the valves 14 and 16, which change the flow rates of the isoprene-rectified and isopentanisoprene fraction, respectively. Blocks 4,5,8,9 .aobybt be implemented on a computer. When the concentration of isoprene in the charge deviates from the given value in the direction of decreasing, as well as when the concentration of isoprene decreases in isoprene-rectified or if the concentration of isoprene in the isopentine-neoprene fraction increases, the ratio of isoprene-rectified and isopentane-isoprene fraction increases simultaneously, and the isolenoid isoprene-isoprene-isoprene-isoprene-rectifier and isoprene-isoprene fraction increases. isopentane-isoprene fraction, and with an increase in the charge of the charge from the cube of the column increases the costs of isoprene-rectified and isopentanisoprene oh faction, and vice versa. In this way, the control accuracy of the isoprene concentration in the charge is improved. The deviation of the concentration of isoprene in the mixture from the specified value using the proposed method is reduced from ± 1.7 to ± 1.3 wt.%. This makes it possible to increase the concentration of isoprene in the mixture by 0.3 wt.% And thus reduce the consumption of solvent to obtain 1 ton of rubber by 0.7 tons. Fogvlula of the invention. The method of automatically controlling the concentration of isoprene in the mixture during the production of isoprene rubber. measurement of the concentration of isoprene in the charge, as well as in the isoprene nectify and the isopentane – isoprene fraction supplied to the azeotropic drying column, and the effect of the isoprene – rectified and isopentane – isoprene depending on the indicated parameters In order to increase the accuracy of controlling the concentration of isoprene in the charge, the fraction determined by determining the concentration of isoprene in the charge and current concentration of isoprene in the I1ereie-rectified and isopentane-isoprene fraction is given by the ratio of isoprene to rectified and isopentane-isoprene fraction, correct the indicated ratio by the deviation of the actual concentration of isoprene in the charge from the specified value and affect the costs of isoprene-rectificate and isopentane-isoprene fraction in depending on the flow of charge withdrawn from the azeotropic dehydration column, and the corrected predetermined ratios isoprene rectified costs and isopentane-isoprene fraction. Sources of information taken into account in the examination 1. Bashhatov T.V. and Zhigalin Ya.L. Technologists synthetic rubbers. M., Himi, 1980; with. 290. 2. USSR author's certificate 658136, cl. C 08 F 2/00, 1976 (prototic).

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Claims (1)

Claim A method for automatically controlling the concentration of isoprene in a charge in the process of producing isoprene rubber by measuring the concentration of isoprene in a charge, as well as in the isoprene rectified and isopentane-isoprene fractions supplied to the azeotine column, dry drying, and the effect of isoprene-rectified expenses depending on these parameters and the isopentane-isoprene fraction, which is related to the fact that, in order to increase the accuracy of regulation of the concentration of isoprene in the charge, they are determined from the given concentration of isoprene in the charge and t For the highest concentrations of isoprene in isoprene-rectified and isopentane-isoprene fractions, the specified ratio of the costs of the isoprene-rectified and isopentane-isoprene fractions, correct the indicated ratio for the deviation of the actual concentration of isoprene in the charge from the value of isadrene and affect the flow rate of isoprene and the isopentane-isoprene fraction, depending on the charge flow rate taken from the azeotropic drying column, and the adjusted 25 specified ratio of isoprene-rectified and isopentane-isopre consumption new faction.