SU981306A1 - Method for automatically controlling exothermal reaction of hydrogenation of acetylene compounds - Google Patents

Description

(54) METHOD FOR AUTOMATIC REGULATION OF EXOTHERMIC REACTIONS OF HYDROGENATION OF ACETYLENE COMPOUNDS

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The invention relates to the automation of technological processes and can be used in the chemical industry in automating the process of hydrogenation of acetylene compounds.

There is a method of controlling the exothermic reaction by adjusting the ratio of the initials of the components by changing the flow rate of one of the components depending on the temperature increase in. reactor ..

However, this method does not provide a high yield of the target product.

Izvesgen is also a method of automatically controlling the exothermic reaction of hydrogenating acetylenic compounds in a two-stage reactor by adjusting the ratio of the costs of the butylene-divinyl fraction and hydrogen in the first stage of the reactor by varying the hydrogen supply with correction for the temperature difference at the inlet and outlet of the first stage of the reactor and controlling the ratio of costs butylene-divinyl

fractions in the first stage of the reactor and hydrogen in the second stage of the reactor by changing the supply of hydrogen with correction for the temperature difference between the reactor and the second stage of the reactor and the concentration of acetylene compounds in the butylenidevinyl fraction; 2.

The disadvantage of this method lies in the large losses of the target product - divinyl, since the regulation of this process does not allow for a change in the activity of the catalyst and does not redistribute hydrogen along the steps of the reactor.

The purpose of the invention is to reduce the loss of the target product.

The goal is achieved by the fact that the supply of hydrogen to the second stage of the reactor is additionally corrected by the temperature difference between the inlet and the outlet of the first stage.

Operating experience of the process of hydrogenation of acetylene compounds in a two-stage reactor shows that as the catalyst activity decreases, the temperature difference between the fraction at the inlet and outlet of the reactor decreases. The table below shows the drop in temperature difference in terms of the decrease in catalyst activity. Increasing the supply of hydrogen, feeding hydrogen only to the first stage leads to losses of the target product — divinyl in the amount of 2–4 wt. % The drawing shows an example of the implementation of this control method. The technological scheme of the process of hydrogenation of acetylene compounds includes the first and second stages 1 and 2 of the reactor and the heat exchanger 3. To measure the temperature difference at the inlet and outlet of the reactor in steps of 51M, sensors of 4-7 temperatures are installed, the signals from which are proportional to the current temperature 8 and 9 temperature differences. The temperature difference in the second stage is controlled by the device 10, the flow rates of the fraction and hydrogen are measured by sensors 11-13 and peiylyated by devices 14 and 15. The concentration of acetylene compounds is measured by devices 16 and 17. The pneumatic signal from device 17 goes to device 18, where the temperature difference , proportional to the concentration of acetylenic compounds. The difference between the calculated and the actual difference in temperature at the inlet and outlet, the first stage is calculated in the device 19. The flow of hydrogen in the stages of the reactor is controlled by adjusting valves 20 and 21. The method is carried out as follows. The supply of hydrogen to the first stage is determined depending on the flow rate of the fraction and the actual temperature difference in the first stage. Hydrogen is supplied to the second stage depending on the fractional flow rate and temperature difference between the calculated and actual temperature difference at the inlet and outlet of the first stage of the reactor, which varies during operation due to a decrease in catalyst activity in the first stage. As the catalyst activity in the first-stage reactor decreases, the ratio of the butylene-divinyl fraction to the hydrogen supplied to the first stage decreases and increases: it is set to the second stage. Using this control method allows to reduce the loss of divinyl by 1.0-1.5 weight. %, while the content of acetylene compounds at the exit of the second-stage reactor, CoI, meets the technological standards.

Formula of b about shadows. The method of automatic adjustment. nor exothermic reaction of hydrogenation of acetylene compounds in a two-stage reactor by adjusting the cost ratio of the butylene-divinyl fraction and hydrogen in the first stage of the reactor by changing the hydrogen supply in the first stage of the reactor by changing the hydrogen supply with correction for the temperature difference at the inlet and outlet of the first stage of the reactor and adjusting the ratio expenses of the butylene fraction in the first stage of the reactor and, in a way, in the second stage of the reactor, by changing the supply of hydrogen with a correction of the ng difference The temperature at the inlet and outlet of the second reactor stage and the concentration of acetylenic compounds butylene-divinyl fraction Tejv different in that in order to reduce losses of the desired product, feeding hydrogen into the second reactor stage is further corrected for the temperature difference at the inlet and outlet of the first stage. Sources of information taken into account during the examination 1. USSR author's certificate number 226559, cl. In Olf 3/08, 1967. 2. USSR authorization certificate № 774576, cl. In O1F 3/08, 1979.

Claims (1)

Claim A method for automatically controlling the exothermic hydrogenation reaction of acetylene compounds in a two-stage reactor by adjusting the ratio of the butylene-divinyl fraction to hydrogen flow rate to the first reactor stage by changing the hydrogen supply to the first reactor stage by changing the hydrogen supply with correction for the temperature difference at the inlet and outlet of the first reactor stage and controlling the ratio of the butylene-divinyl'55 fraction consumption to the first reactor stage and hydrogen to the second reactor stage by changing hydrogen odachi with correction for the temperature difference at the inlet and outlet Auto · swarm reactor stage and the concentration of acetylenic compounds butylene di ⁴⁵ vinyl fractions different in I tes that, to reduce the expected product losses feeding hydrogen into the second reactor stage is further corrected by temperature difference ⁵⁰ at the inlet and outlet of the first stage.