SU190678A1 - - Google Patents

Description

METHOD

With known methods for controlling the process of polymerizing gaseous olefins, such as low pressure polyethylene, which consist in automatic control of temperature, pressure and heat removal, each of these parameters is regulated separately, independently of each other. Due to the lack of a cumulative account of the main parameters of the system, i.e. hydrodynamic conditions of the processes: heat removal, transportability of the suspension, the product to be introduced and the strength of the process apparatus — it is difficult to achieve complete optimization of the process and improvement of the quality of the finished product.

In order to intensify the polymerization process, it is proposed to regulate the temperature and pressure in case of deviations from the specified values by changing the consumption of the cooled reagent and monomer.

The drawing shows a scheme for controlling the process of polymerization of ethylene at low pressure by the described method.

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Catalyst under appropriate temperature and pressure ethylene is polymerized, turning into polyethylene in the form of fine particles forming a suspension. At the same time, fresh ethylene is continuously added to the system, and the catalyst complex is added to the polymerizer. Then the polymer slurry in gasoline is taken out for further processing. The polymerization process produces heat,

which is used mainly for heating the monomer and gasoline, as well as for the evaporation of the latter. Excess monomer and gasoline vapors enter scrubber 3, where they are irrigated with cold gasoline. The gasoline vapor condenses and the condensate is drained back to the polymerizer. The cooling monomer is injected from the scrubber with a gas blower into the bottom of the polymerizer. The recycle monomer circulating through the polymerizer besides

the removal of heat from the reaction zone also provides the necessary mixing of the suspension. The gasoline heated in the scrubber is cooled with water in the refrigerator 4. Gasoline is circulated by the pump 5. POLYMERISIS1TSH1 process control. GAS OLEFINS "".

performance heat removal system, despite the maximum intensity (valve 6 on the cooler's bottom completely closed, maximum water flow), will not create the necessary tenloscale. This will lead to an increase in temperature against the predetermined value, with the result that the signal of the inverse regulator 7 of temperature, previously having a value of 1 kg / cm, will begin to decrease. Decreasing the signal below the voltage set on the gearbox 6 will also reduce the setting of the inverse pressure regulator 9, which in turn will lead to shortening: pressure due to the corresponding effect on the consumption of fresh monomer.

The intensity of the polymerization reaction, i.e., the amount of produced teile, will decrease, and this will cause the temperature to return to a predetermined value determined by the regulator 7.

In this case, the automatic control system allows to stabilize the temperature by changing the consumption of fresh monomer at maximum heat removal.

Let the intensity of the polymerization process decrease for some reason (for example, due to a decrease in the activity of the catalyst complex). Then the temperature will tend to decrease, which will lead to an increase in the setting of the pressure regulator, in order to compensate for the decrease in the activity of the complex. The pressure regulator will adjust according to the output signal of the regulator 7 to a certain value set by the reducer 8 and determined by the allowable pressure value in the polymerizer, based on the strength of the equipment. A further increase in the output of the regulator 7 does not increase the pressure. The temperature in the polymerizer will begin to decrease. When it falls below the setpoint of the temperature controller 10, the valve 6 will begin to open, reducing the intensity of heat removal and preventing the temperature drop.

In such conditions, the automatic control system allows to stabilize

the maximum value of pressure is the change in the consumption of fresh monomer and the temperature is a change in the inteisiveness of the pressure removal.

Let the intensity of the polymerization process increase (for example, due to the increased activity of the catalyst complex), and the possibilities of heat removal are not exhausted (say, because of the low temperature of the cooling water). In this case, the pressure in the polymerizer will tend to decrease. The output of the pressure regulator 9 will increase, requiring an increase in the consumption of fresh monomer, and the consumption controller 11 will reduce the consumption of fresh monomer in

compliance with the output of the pressure regulator to a certain value set on the gearbox J2 and determined by the permissible flow rate, based on the conditions of transportability of the suspension. A further increase in the output of the pressure regulator will not cause an increase in the consumption of fresh monomer. The temperature in the polymerizer will be stabilized with temperature regulator 10 due to a change in the degree

open the klanap 6.

In this way, in this case, the automatic control system allows stabilizing the consumption of fresh monomer by acting on the valve 13 and the temperature — by changing the intensity of the heat supply: em.

The setting of the controller 7 is set above the setting of the controller 10 by an amount determined by the accuracy of temperature stabilization so that one of the

its regulators.

Subject invention

The process control method and the polymerization of gaseous olefins,

the production of low pressure polyethylene, consisting in automatic regulation of temperature, pressure and heat removal, characterized in that, in order to intensify the polymerization process, temperature and pressure are controlled by varying the flow rate of the cooled reagent and monomer.

fresh reference

Catal and mash complex