SU670232A3 - Installation for decomposition of hydrocarbons - Google Patents

Description

one

The invention relates to the chemical industry, namely, plants for the decomposition of hydrocarbons to produce ethylene, propylene and other olefins.

The closest to the technical essence of the invention is an installation for the decomposition of hydrocarbons, having a tube furnace with grocery tubes and a cooler installed above it with vertically mixed cooling tubes and a receiving chamber for gas located in its lower part and connected to the grocery tubes of the fll furnace.

A disadvantage of the known installation is the short duration of continuous operation due to the fact that coke particles are deposited on the cooling tubes, which leads to their blockage.

 In addition, the connection of the furnace tubes to one in order to feed gas into the receiving chamber leads to a decrease in the pressure of their entry into the refrigerator and excessive cracking of hydrocarbons, which reduces the yield of olefins.

For olefins and

continuous operation by preventing coke deposits in the pipes; each furnace pipe is connected to the receiving chamber of the refrigerator by the time of the expanding pipes, and the bottom of the receiving chamber is stepped towards the body of the refrigerator.

In addition, the receiving chamber of the refrigerator has a partition located in its central part, and the step area is 0.3-0.6

cross-sectional area of the receiving chamber.

Such an embodiment of the connection between the furnace tube products and the receiving chamber of the refrigerator and the stepwise performance of the bottom of the receiving chamber can increase the yield of olefins and the period of continuous operation of the installation by preventing coke deposits on the pipes. FIG. Fig. 1 shows the assembly of the connection between the furnace tubes and the receiving chamber of the refrigerator; FIG. Figures 2 and 3 depict embodiments of the stage, inclined and partially inclined, respectively.

Claims (3)

The hydrocarbon decomposition unit has a tube furnace 1 with product tubes 2 and a refrigerator 3 installed above it. Refrigerator 3 has vertically placed cooling pipes 4 and a gas receiving chamber 5 located in the lower part of refrigerator 3. Each pipe 2 of furnace 1 is connected to the receiving chamber 5 of the refrigerator 3 by means of expanding pipes 6, the bottom 7 of the receiving chamber 5 is stepped towards the body of the refrigerator 3. The receiving chamber 5 has a partition 8 located in its central part. The stage can be made flat or partially inclined. The cracking gas formed in the decomposition process of NIN hydrocarbons in the tube furnace 1 enters the receiving chamber 5 of the refrigerator 3 by means of the expanding pipes b and is distributed through the cooling 4, and the coolant is supplied to the intercooled space of the coolant. The cooled gas is removed from the refrigerator 3. The coke formed during the cracking process is deposited on the stepped bottom 7 of the receiving chamber 5 of the refrigerator 3. With accumulation, the coke is removed. Connecting each furnace tube to the receiving chamber of the refrigerator by means of opening pipes eliminates gas pressure losses due to gas flow convergence, reduces the pressure loss between the furnace and refrigerator pipe, reduces the distance between the furnace and the refrigerator, which leads to to shorten the residence time of the gas between the stove and the refrigerator, i.e. eliminates the possibility of excessive cracking and thereby leads to an increase in the yield of olefins. . The presence of a stepped bottom, the step area of which is 0.3-0, the cross-sectional area of the receiving chamber, allows the coke particles, flying from the oven tubes, to fall out of the gas. Oxygen flow and settle on the stepped bottom oven and not mix with gas flow, which prevents the cooling pipes of the refrigerator from becoming blocked, i.e. leads to an increase in the life of the plant. The presence of a partition located in the central part of the receiving chamber of the refrigerator ensures uniform distribution of the gas flow through the pipes of the refrigerator. This installation allows you to increase the yield of C, Well, CjHg and 1,3 - boot, respectively, by 15%, 8% and 16% and reduce the coke removal interval from 40 to 90 days. Claim 1. A unit for decomposing hydrocarbons, comprising a tube furnace with food tubes and a cooler installed above it with vertically placed cooling tubes and a receiving chamber for gas located in its lower part and connected to the product tubes of the furnace, so that that, in order to increase the olefin yield and the period of continuous operation by reducing the coke deposits in the fridge pipes, the X1 tube of the furnace is connected to the receiving chamber of the refrigerator by means of expanding pipes, and; ; but the receiving chamber is stepped towards the body of the refrigerator. 2. The installation according to claim 1, is distinguished by the fact that the receiving chamber of the refrigerator has a partition located in its central part. 3. Installation according to the item 1 and 2, in contrast to the fact that the step area is 0.3-0.6 the cross-sectional area of the receiving chamber. Sources of information taken into account in the examination 1. Seventh World Petroleum Congress, Proceedings Volume 5, Petrochemistry, E.Isevier Pablishing Co. LtD, 1967, p. 225. -3 figs