SU783296A1 - Method of control of dimethyldioxane synthesis - Google Patents

Description

The invention relates to the field of Automation of reaction processes of chemical-technological production, in particular isoprene production, and can be used in the petrochemical industry.

A known method of regulating the synthesis of dimethyldioxane by measuring the flow rate and composition of the feed streams: hydrocarbon fraction C _h and formaldehyde charge and regulating the weight ratio of isobutylene and formaldehyde (£ 1).

Does the known method provide insufficient accuracy? set the yield of the target product, dimethyldioxane, in connection with significant temperature fluctuations in the reactor.

A device is also known for automatically regulating a reactor for the ZY synthesis of dimethyldioxane, which implements a control method based on controlling the temperature in the reactor by acting on the steam supply to the hydrocarbon heat exchanger, adjusting the ratio of formaldehyde in the charge to isobutylene in the hydrocarbon fraction by acting on the supply of the hydrocarbon fraction and regulation of condensate supply to the reactor (ED. 30

The disadvantage of this method is that in the synthesis process there are significant deviations of the yield of dimethyldioxane from a given value, which leads to an increase in the specific consumption of raw materials.

The aim of the invention is to reduce the specific consumption of raw materials by increasing the accuracy of maintaining at a given level the yield of the target product.

This goal is achieved by the fact that in the known method, the temperature in the reactor is adjusted depending on the charge flow rate and the hydrocarbon fraction, and the condensate supply to the reactor is controlled depending on the flow of formaldehyde in the charge.

The drawing shows a schematic diagram of an automatic process control (synthesis of dimethyldioxane, which implements this method.

The formaldehyde charge enters the reactor 1, which also serves the hydrocarbon fraction, which previously passes through the heat exchanger

2. The flow rates of the hydrocarbon fraction of the th formaldehyde charge are measured by sensors 3 and 4. The composition of the hydrocarbon fraction and the formaldehyde charge of

78.3296 are measured by Bib analyzers. The temperature in the reactor, measured by the sensor 7, is controlled using the controller 8 and valve 9. The flow of hydrocarbon fractions is controlled using the valve 10, and the condensate flow is controlled using the valve 11. The control system also includes a unit 12 for controlling the ratio of formaldehyde in the charge and isobutylene in the hydrocarbon fraction, a '13 "l unit for temperature correction in the reactor and a unit 14 for condensate supply to the reactor.

The method is as follows. 1S

Signals from sensors 3 and 4 of the flow rate of the hydrocarbon fraction and formaldehyde charge, as well as from the analyzer

5, measuring the current value of the concentration of isobutylene, and the analyzer 20

6, which measures the current value of the concentration of formaldehyde, is fed to the input of the unit for controlling the ratio of formaldehyde in the charge to isobutylene in the hydrocarbon fraction, jg, which acts on the valve 10 for supplying the hydrocarbon fraction.

Using the block 13 correction definition; a correction correction to the current temperature in the reactor is divided in proportion to the sum of the expenses of the formaldehyde ™ charge and the hydrocarbon fraction.

Using the correction unit 14, a correction correction to the current condensate flow is calculated in proportion to the formaldehyde flow in the 35 charge. ''

This method allows, due to adjustments to the temperature and temperature conditions of the synthesis process, depending on disturbances in raw materials, to increase the accuracy of maintaining the dimethyldioxane yield at a given level, which, in turn, provides: a 0.7% reduction in consumption coefficients for isobutane and methanol by 0.5%.

Claims (1)

Claim . The method of controlling the synthesis of dimethyldioxane by "controlling the temperature in the reactor by affecting the steam supply to the hydrocarbon heat exchanger, controlling the ratio of formaldehyde consumption in the charge and isobutylene to the hydrocarbon fraction by influencing the hydrocarbon fraction and controlling the condensate flow to the reactor, characterized in that improve the accuracy of maintaining a given level of yield of the target product, the temperature in the reactor is adjusted depending on the costs of the charge and hydrocarbon fraction, and the flow of condensate into the reactor, regulate depending on the flow of formaldehyde in the mixture.