SU763367A1 - Method of automatic control of phenyl polycondensation with hexamethylenetetramine - Google Patents

Description

acting on valve 4. The mixture obtained in mixer 1 is fed to mixer 5, where it is mixed with a stream of phenols, and the resulting mixture is sent to the reactor 6. The temperature of the shikty is measured using sensor 7 and controlled by a regulator 8 acting on valve 9 on the pipeline heat carrier supply to the heat exchanger 10. The charge consumption is stabilized by changing, for example, the flow rate of hexmethylenetetramine solution in phenols as follows. The flow rate of the charge is measured by means of a sensor 11 and is controlled by a regulator 12 acting on the valve 13. The viscosity of the charge is measured by a sensor 14 and adjusted by the regulator 15 acting on the valve 16.

In the reactor 6, the polycondensation reaction is carried out. The temperature of the reaction mixture is measured by means of sensor 17 and controlled by regulator 18, the valve 19 is applied to the coolant supply pipe to reactor jacket 6. The viscosity of the reaction mixture is measured by sensor 20 and adjusted by regulator 21, which corrects the setting of the regulator 15.

With an increase in viscosity of the charge measured by sensor 14, the regulator 15 acts on valve 16 in such a way that the consumption of phenols increases until the viscosity of the charge becomes equal to the setting. An increase in the consumption of phenols leads to an increase in the consumption of charge. 11 and by means of the regulator 12, a signal is sent to the valve 13 to reduce the consumption of a solution of hexamethylenetetramine in phenols. Thus, the total consumption of the charge remains constant. Moreover, if the viscosity of the reaction mixture increases against the nominal value, which is fixed by the viscosity sensor 20, the setting viscosity of the charge to the controller 15 decreases with the help of the adjusting regulator 21, and if the viscosity of the reaction mass decreases against the nominal, then the task of the regulator 15 increases If the viscosity of the charge decreases, the consumption of phenols is reduced by means of the IS controller and valve 16. In this case, the consumption of the charge is reduced, and with the help of the controller 12 and valve 13, the consumption of the solution of hexamethylenetetramine in phenols is increased. With an increase in the temperature of the mixture or the reaction mixture reduces the cost of the coolant

through the heat exchanger 10 and the jacket of the reactor 6 with the help of regulators 8 and 18 and valves 9 and 19, respectively. When reducing the temperature of the mixture or the reaction mixture increases the corresponding costs of the coolant.

If the charge viscosity is controlled by changing the consumption of a solution of hexamethy lentetramine in phenols, and the consumption of the charge is stabilized by changing the consumption of phenols, then increasing the viscosity of the charge against the setting reduces the consumption of the solution of hexamethylenetetramine in phenols, which leads to a decrease in the consumption of charge against the nominal value. This decrease is compensated by an increase in the consumption of phenols. With a decrease in viscosity of the charge, the consumption of hexamethylenetetramine in phenols is increased, and the charge of consumption is brought to nominal value by decreasing the consumption of phenols.

0 When using the described

In this way, the maximum deviation of the viscosity of the reaction mixture from the nominal value in dynamic modes can be reduced by 19%, and the time of the transient process can be reduced by 30 minutes.

Claims (1)

 1. Copyright certificate CCCiP 388666, cl. C 08 F 2/00, 01/05/74.