SU493237A1 - Method for automatic control of continuous dissolution of phthalic anhydride - Google Patents

Description

products of dissolution and reactions in the liquid phase into the etherizer 2 through constant overflow, solvent vapors (alcohol) and water formed during the conversion of phthalic anhydride to diester phthalate, in a refrigerator 3, in which they are condensed and taken off for further processing in the case of direct of the cooler 3 or returned to the reactor 1 in the case of the reflux cooler 3. The reactor 1 is designed to completely dissolve phthalic anhydride in alcohol, convert the dissolved phthalic anhydride to monoester phthalate and partially convert and monoether phthalate in diester phthalate. The reaction of converting the dissolved phthalic anhydride to the monoether phthalate under the conditions of the process proceeds at a high rate and ends almost simultaneously with the dissolution of phthalic anhydride in alcohol. The reaction of converting monoether phthalate to diester phthalate is reversible, second order, and depends both on the concentration of the monoether and on the concentration of the catalyst.

In the ether 2, the final transformation of phthalic anhydride into diester phthalate is the target product of production.

The required amount of phthalic anhydride, corresponding to the selected performance of the process line, is maintained at a predetermined level by the regulator 5 by acting on the control valve I located on the supply line of phthalic anhydride to the reactor 1. The heating steam is supplied to the jacket of the reactor 1 by which is determined by the consumption of condensation products, for example, a flow sensor 15 installed on the condensation discharge line from the direct cooler 3 , and is set to a predetermined value by the regulator 8, by acting on the control valve installed on the steam supply line to the heating jacket of the reactor 1.

In order to obtain the required excess of solvent (alcohol) in the reaction mass, the alcohol is supplied in a certain ratio with the consumption of phthalic anhydride. This ratio is maintained by regulator 6, which generates a control signal to control valve 12 installed on the alcohol supply line to reactor 1.

If there are disturbances on the part of the steam parameters or on the quality of the raw material, the ratio of the consumption of phthalic anhydride and alcohol is adjusted by the pressure of the heating

steam in the reactor jacket 1. The pressure of the heating steam in the jacket of the reactor 1 depends mainly on the heat transfer coefficient from the heating steam to the reaction mass,

5 which, in turn, depends on an excess of alcohol in the reaction mass.

The signal from the pressure sensor 16 is fed to the regulator 7, which produces a corr. rectification signal to the ratio controller 6, stabilizing at a given level the excess of alcohol in the reactor 1.

The amount of catalyst fed to the reactor 1 is controlled in a certain ratio with the consumption of phthalic anhydride, which ensures a predetermined degree of conversion of phthalic anhydride into diether phthalate at the outlet of the etherizer 2. This ratio is maintained at a predetermined level by the regulator 4 by acting on the control valve 10 located on catalyst feed lines to the reactor 1. In the event of a change in the quality of the feedstock or the residence time of the reaction mass in the total volume of apparatus 1 and 2, the correction is made The ratio of costs phthalic anhydride-catalyst. The signal from sensor 14 of the conversion of phthalic anhydride to diester phthalate is supplied to regulator 9, the output of which adjusts the ratio of phthalic to anhydride catalyst on regulator 4 of the ratio.

Subject invention

5 A method of automatically controlling the continuous dissolution of phthalic anhydride in the production of plasticizers by changing the flow rates of phthalic anhydride, alcohol supplied to the reactor, is equipped with a direct or reflux condenser and a jacket to which saturated steam is supplied, characterized in the finished product, the supply of alcohol is carried out depending on the ratio of costs of phthalic anhydride and alcohol with correction for the pressure of saturated steam in the jacket of the reactor, the supply of saturated steam flow is carried out by condensation products of a straight or reverse

The cooler of the reactor and the supply of catalyst are varied by the ratio of phthalic anhydride and catalyst with correction for the degree of conversion of phthalic anhydride to the target product, the degree of conversion being determined by the residence time of the reaction mass in the reactor volume. Condensate

eleven