DE1959694C - Device for preventing coke deposits in plants for the production of olefins by thermal cracking of saturated hydrocarbons - Google Patents

Description

The sieve body is in the form of a cage made of no-mesh stitch

to give, the wall of the inside of the cooler, 30 inlet hood is approximated.

The invention relates to systems for processing A further embodiment of the invention bi

Extraction of olefins, in particular ethylene, from a number of Mi.

saturated hydrocarbons by pyrolysis. shear wire cages, the mesh sizes dei

The hot olefin cages leaving the pyrolysis furnace increase from the outside to the inside. Special,

Fission gases containing fission gases are left with the known methods. It is expedient to have a double cage with an inner cage.

drive through a cooler or a quenching zone - has a larger mesh size than the outer cage.

stream. In the interior of the cooler, the screen body is formed from the Lr invention, as soon as &, ■

Pyrolysis coke and separates out. This coke has become so thick that the coke crusts formed on it

forms at the entrance to and on the heat exchange that it is a noticeable obstacle for the cracked gas

Shear surfaces of the cooler form solid crust-like deposit stream 40, removed from the system and through a

stanchions, the thickness of which is constantly increasing and thus replaces the coke-free screen body. To this end looks

Heat exchange steadily deteriorates and ultimately to the invention a closable opening on the

Blockages and shutdown of the system. Part of the pyrolysis system in front of which the

The removal of the coke crust is difficult and sieve bodies are arranged.

expensive, since the common coolers contain large 45 The invention is described below on a special

Exchange areas housed in a very small space len exemplary embodiment explained,

are. This embodiment is in the drawing

Attempts are known to show the formation of coke. There 1 means the cooler inlet hood, crusts through fluidic measures to the on the schematically shown tube sheet 2 to encounter. One has to be fastened in the cooler inlets 50. The feet 3 stand up on this Internals installed, one of which rests over the radiator cross-sections of the cage 4. In the. Middle of the cage 4 cut constant flow speed of the struts 5 are attached to a sheet metal cone 6 caused cooling fission gases. Without this built-in hold. The cage 4 tapers upwards and The last was the formation of coke crusts over the cooler transverse ends at the top in a pipe socket 7. The pipe cut unevenly, d. that is, certain zones of the neck 7 can be opposite the neck 8 of the cooler-cooler sit more quickly with coke crusts than abandere inlet hood 1 in a manner not shown Zones. With the internals, the seals were formed. The cage 4 consists of ice coke crusts Evenly over the cooler cross-section nem wire mesh with a mesh size of quickly, but only required a slightly length of 6 mm and a wire thickness of 2 mm. He is through more time to add parts of the cooler. So that 60 steel rings and steel bands, not shown, were used the shutdown of the radiator is pulled out. The arrows symbolize approximate flow equipment, but not prevented. directions of the cracked gas. This occurs through the

It is the object of the invention to remove blockages in the throat8 and the pipe socket? inside the cage 4

follow coke deposits in hydrocarbon pyro. It also flows through the meshes of the cage 4

lysis systems, especially in systems for pyroiyti- 65 through into the space 9 between the cage

cal production of ethylene, to prevent or fig 4 and the cooler inlet hood 1 in and from

considerably / u delay and thus also the running times there back into the interior of the cage 4. It

To extend the cooler, finally lets the cage 4 through the mesh of the

Soil through to now the not shown Cooler to flow through. Coke crusts form on the wire of the cage. It can happen that larger pieces of this coke crust move from the top Peel off part of the cage 4 and place it on the bottom of the cage 4 falling down. The sheet metal cone 6 is provided so that these pieces do not form too great an obstacle to the flow. The falling pieces are smashed on him. The embodiment shown here was used in an athan pyrolysis plant Fission gases coming from the pyrolysis furnace contain about 33 mole percent ethylene and occur with a A temperature of 800 ± 50 ° C. in the neck 8 of the cooler inlet hood 1. Without using the sieve cage 4 the cooler was clogged after each about 3 weeks by deposited coke, i. i.e., the plant had to be shut down about every 3 weeks. When using the sieve cage 4, this only needs after to be exchanged for one freed from coke crusts for 3 months at a time.

1 sheet of drawings

Claims (5)

1 2 The invention solves this problem by means of patent claims: · Device for preventing coke deposits in plants for the production of olefins 1. Device for preventing coke-thermal cracking of saturated hydrocarbons in Divorces in plants for the production of oils 5 of the gas phase, characterized by one on one Finely accessible by thermal cracking of saturated coal between the cracking furnace and the Ienwasserstoffe in the gas phase, ge ken η fission gas cooler located point is drawn through one at an easily accessible body. borrowed, between the cracking furnace and the cracked gas- It is surprising that the coke crusts screen body located in a cooler location. io preferably form on the screen body and not 2. Device according to claim 1, characterized ge more on parts of the cleavage system, which in the direction of the indicates that the screen body is seen from Ma cracked gas stream, behind the screen body lies existing cage is. gene. 3. Apparatus according to claim 2, characterized in that the sieve body according to the invention can be an off indicates that the cage has the shape of two hollow bodies made of wire mesh or one placed on top of one another Truncated cones with various wire mesh disks existing structure. which has opening angles. Pieces of wire can also be joined irregularly 4. Apparatus according to claim 2 or 3, there will be or form a ball. Instead of wire could., Characterized in that other materials are used inside the cage, for. B. K ₁ a cone with an upward-pointing tip attached 20 ramikstänke or ceramic splinters, which is a grot. meshed, flat or spatial sieve body ve 5. Apparatus according to claim 1, thereby being agreed. _{A sieve body t} according to the invention indicates that the sieve body can be created from several wire mesh cages arranged one inside the other under the face points by any person skilled in the art, that the sieve body consists of the scout, the mesh sizes of the cages of gas flow offering the largest possible surface and ih: increase outside inwards. should still happen. It has proven to be particularly advantageous that,