SU1627207A1 - Method for controlling process for preparing tert-butyl ester - Google Patents

Abstract

The invention relates to the field of controlling reaction processes implemented in the same apparatus as the rectification process, and can be used in the chemical and petrochemical industry. The aim of the invention is to improve the quality of the final product. The method is carried out in a distillation column with a layer of solid ion-exchange gas to the FLAT throat embedded in the middle part of the column by adjusting the supply to the reaction zone of the hydrocarbon fraction and methanol in the methanol fraction, reflux to the upper part of the column and steam in the boiler. To solve this problem, the temperature of the catalyst bed is controlled by the influence on the reflux feed, the methanol feed in the methanol fraction is adjusted in proportion to the isobutylene consumption and the sum of the other components in the hydrocarbon fraction, the difference between the measured and specified isobutylene concentration in distillate and with a positive the value of this difference additionally corrects the flow of methanol in proportion to this difference, determines the difference between the measured and set values to The concentration of methanol in the bottom product and with a positive value of this difference regulate the consumption of the bottom product recycling to the methanol fraction supply line in proportion to this difference. I il. W

Description

The invention relates to the control of reaction processes implemented in the same apparatus with the process of rectification, and can be used in the chemical and petrochemical industries.

The aim of the invention is to improve the quality of the final product.

A process control diagram is shown in the drawing.

The method of producing methyl tert-butyl ether is carried out in the vapor phase in a layer of ion exchange catalyst and in Jurassic I, located in the middle of rivers of the purification column 2. The heat of reaction is used to carry out the process;) rectification. The MTBE obtained is brewed with a bottom product, and the control system of the HCBS includes in its composition a regulator of 3 refluxes fed to the top of the column, a regulator of 4 supplying the hydrocarbon fraction to the reaction zone with a sensor 5, a regulator of 6 supplying steam to the boiler of the column, torus 7 for supplying concentrated methanol to the reaction zone with valve 8, regulator 9 for the consumption of the recycling of the bottom product to the supply line of the methanol fraction with sensor 10. controller II for the temperature of the upper layer of the roll of the filter with sensor 12, sensors 13-15; evot. fraction, distillate and vat. 1. as well as the control computer (N13M) 16.

05

to you

The diagram also shows functional blocks implemented in UVM 17-19.

The proposed method is carried out as follows.

Using regulators 3 and 6, they regulate the supply of reflux and steam to column 2, respectively. Using the controller 4, the measurement from the sensor 5 regulates the flow of the hydrocarbon fraction into the reaction zone. The regulator 7 controls the flow of concentrated methanol to the reaction zone by acting on the valve 8. The regulator 9 regulates the flow rate of the bottom product by measuring from the sensor 10.

Using the controller 11 in the measurement from the sensor 12 regulate the temperature of the upper layer of the catalyst 1 by the influence on the task of the controller 3.

Using block 17, implemented in UVM 16, correct the setting of methanol supply controller 7, for example, according to the following law.

about

(city

d

where is the component for the supply of methanol, corrected "by disturbance as follows

Gj KiG4 -C4 + K2GN Ml -), (2) Oul - hydrocarbon fraction consumption, measured with sensor 5,

C c is the concentration of isobutylene in the hydrocarbon fraction measured with sensor 13; GP? -H is the consumption of recycling the bottom product measured with sensor 10;

 - methanol concentration in the bottom product, measured by sensor 15

The coefficient K in expression (2) determines the required ratio of matnol and isobutylene for the reaction to produce MTBE (K | 1.01 - 1.02). The K2 coefficient determines the excess flow of methanol, taking into account its absorption by hydrocarbons leaving into the distillate, due to the formation of an azeotropic mixture (Kz "0.03).

The component of the task for the supply of methanol, corrected "by deviation, is determined using block 18:

STAL3.

(JM Lz (Sli1t-Saist),

(3)

where Sd is the concentration of isobutylene smelting in the distillate, measured with sensor 14; - specified concentration value;

gza3

(CI (.T

When Cant

uh

s3-9

Odist

FI Sdyst

The third component in expression (1) takes into account the amount of methanol supplied with the bottom product recycling.

Using block 19, adjust the task to the controller 9:

, 4ud

GL / SLkkub)

41

.

(four)

where - the specified value of the concentration of methanol in the bottom product;

S

/ (4 PREI Gkub Gkub;

yU

When Gkub Gkub,

five

0

five

0

five

The proposed solution has significant differences from the known and a number of advantages.

The proposed correction of the supply of methanol makes it possible to effectively respond to changes in the isobutylene content in the original hydrocarbon fraction (perturbation control), taking into account the methanol demand for the MTBE reaction and the formation of an azeotrope in distillate. An additional correction of the methanol supply according to the actual content of isobutylene in the distillate (control "by deviation) allows refining the technological regime taking into account the actual conversion of isobutylene 5 (CK &" 0.01).

The proposed regulation of the bottom product recycle allows, with possible mode deviations, to eliminate significant methanol leakage with the bottom product

(g $ "0.003)

The proposed regulation of the temperature of the upper layer of the catalyst provides a stable temperature in the reaction zone.

All of these factors contribute to increasing the selectivity of the process of obtaining MTBE.

Tests of the proposed method - confirmed its efficiency and usefulness.

The use of the proposed method in the production of MTBE with a capacity of 100 thousand tons per year will, by increasing the selectivity by 0.5% relative, reduce the specific consumption of methanol and isobutylene.

Claims (1)

Invention Formula The method of controlling the process of producing methyl tert-butyl ether by controlling the feed to the reaction zone of the hydrocarbon fraction and methanol in the methanol fraction, reflux to the upper part of the column, and steam into the boiler, characterized in that adjust the temperature of the upper layer of the catalyst by the influence on the reflux feed, correct the flow of methanol in the methanol fraction in proportion to the consumption of isobutylene and the remaining components in the hydrocarbon fraction, compare the target and current concentrations of isobutylene in the distillate and, with a positive comparison result, change the flow of methanol in the bottom product proportionally, and with a negative proportionate change the flow rate of bottom product in the methanol fraction.