DE1542402B1 - Reactor for the continuous implementation of reactions - Google Patents

Description

1 2

The invention relates to a reactor for continuous liquid reactants and in its outer loading

Union implementation of reactions between gases rich coaxially to the outer tubes in each case in the

and liquids or between liquids, protruding in both associated reaction spaces

from which steam escapes. Has pipe socket for gas passage.

As is known, a stage reactor consists of a 5 Such a reactor is particularly suitable for between

Number of chambers with stirrers in which the con liquids run off with the release of steam

centering of the different constituents in every reaction and for reactions between a gas

Place of the chamber is the same, so that the one out of each and one liquid suitable, with optionally

The product flowing out of the chamber has the same aggregate - in addition, a more or less finely divided solid like the product inside. io may be present from the reaction itself

There are already different types of device originating or introduced with the reactants

genes that are either used for extractions or absorptions, as is the case with catalytic reactions.

or chemical reactions are constructed and the reactor according to the invention allows an excellent

one under the general term of the step-reacting circulation of the reactants and one goals can summarize. 15 excellent heat exchange.

So is already a column (German Auslegeschrift In a preferred embodiment of the Reak-1124 021), which consists of cameras arranged one above the other, is provided that the in the central area of the mern or reaction chambers consists, which is arranged by perforated bottom and downwardly protruding tube plates are separated. Such a column is suitable for connecting pieces, each funnel-shaped. in particular for the countercurrent extraction of fluids. In a further preferred embodiment liquids or for the selective absorption of gas is in the area of each reaction space above the constituents by means of a liquid, which is treated with a stirrer in each case with the heat exchange devices Phase can only be mixed incompletely is ordered.

and differs from it in density. For example, when using the drawings

Such a column is a particular device 25 embodiments of the present invention in more detail

not intended for heating or cooling. illustrated.

It is also a reactor for the continuous Figure 1 shows in axial section a reactor stage ";

Treatment of liquids, in particular of FIG. 2 shows a countercurrent reactor;

Fats and oils, with one of a wave and men- F i g. 3 shows a direct current reactor;

30 F i g attached at various points on the shaft. 4 shows a modified embodiment

Mixing units existing stirring device known of the funnel of the middle pipe socket;

(German Patent 955 411), in which the stirring F i g. 5 shows a modified embodiment

units as opposing coils from a reactor with a stirrer;

forms are. In addition, the reactor has an outer circumference. 6 is a section along line AA of FIG

sheaths for heat exchange. Such a 35 Fig. 1.

The reactor is only suitable for products with a fairly high der in FIGS. 2 and 3 illustrated toughness of the invention, for example oils or fats, can be used. The proper reactor is one of several stages together in addition, it is a relatively large heat-generating column, as shown in FIG. 1 schematically exchange, especially in columns with changing is shown. The steps are arranged one above the other the diameters, not possible. 40 and separated by floors 1. Each floor 1 is with Another known column (USA.-Patent specification a central pipe socket for the passage of 2 833 527) is a perforated plate column for the con-liquid and is concentric over one area clocking of liquid and gas, the pipe socket with back to the pipe socket 2 distributed for the running pipes is provided. The plates are provided with heating passage of the gas phase. The pipe socket 3 snake. Although the device allows 45 to stand on each side of the bottom 1. Your mess Good heat exchange, but the inside diameter is smaller than that of the central pipe socket 2. No device is provided for each step by means of which a pipe socket 2 extends under the floor 1 active fluid circulation could be achieved. beyond the approaches of the pipe socket 3.

The object of the present invention is inside each step is in the middle part

therefore, in creating a stage reactor, with 50 a tube bundle arranged, which is shown in FIG. 6 in the

which shows a very good homogenization of the reaction section AA and off to the column axis

participants and a good heat exchange with stepped parallel pipes through which a circulation

reactions is achievable. the liquid adjusts. The bundle consists of one

This task is in a reactor, consisting coaxially to the pipe 2 extending central pipe 4 and

from a column with a number of tubes 5 one above the other, which are coaxial to the pipe socket 3

Chamber 6 located outside the tubes 4 and 5 and separated from one another by floors

Reaction chambers, with each bottom material passage of the tube bundle with two lateral tube connections 7

openings and each reaction space means and 8 for the circulation of a fluid provided for

for heat exchange, solved in that the implementation of the desired heat exchange

the heat exchange facilities are suitable for the 60's.

middle area of each reaction space of the column. The reactor also has a base and a

with the formation of an upper part for the column parallel to the longitudinal axis of the column, which is generally with

Aligned tube bundles fill in, each of which is the usual tube socket for insertion and removal

The liquid and gaseous phases are drawn from a tube located in the central area

larger diameter and concentric in outer 65 are.

Area of arranged pipes of smaller diameter. A stage η of the reactor according to the invention exists, with each tray in its central processing as follows: The pipe socket for holding gas phase protruding downwards in stage 1 collects under tray 1

of the steps and enters them through the pipe socket3. The gas flows achieved in this way rise up inside the tubes 5 and take with them part of the liquid present in the lower part of the stage. In the upper part of stage η the liquid and gaseous phases separate, the gaseous phase collects again under the bottom of stage n + 1 , while the liquid phase returns through tube 4 to the lower part of stage η. In this way, an intensive circulation of the liquid present inside each stage is created. This internal circulation in each stage is superimposed on a general circulation of the fluids inside the reactor. The gas phase rises from one floor to the other, while the liquid phase moves from one floor to the other through the pipe socket 2 either up or down, depending on the liquid products passing through the reactor when they are at its base or at its top are introduced.

F i g. 2 shows schematically such a reactor for a reaction between a gas and a liquid in countercurrent. The course of the reactor is regulated in such a way that the liquid in each stage is a certain one Level does not exceed that between the bottom 1 and the lower opening of the pipe socket 2 and that in this way there is enough space left in the upper part of the step where the gas that passes through the step can accumulate.

F i g. 3 shows schematically a similar reactor for a reaction between liquids in cocurrent, which are fed in at the bottom of the reactor, so that, depending on the operating conditions, a gaseous one Mixture is created. If necessary, the reactor according to the invention or all reactor stages can additionally Feed pipes in the individual stages have to keep the feed over the entire length of the reactor to distribute according to the reaction conditions.

Due to the intensive circulation that occurs in each stage as a result of the flow of gas or steam is present, with the help of the reactor inside each stage, considerable homogeneity is obtained and an improved mass and heat exchange. The reactor works the same when the liquid phase contains its solid particles in suspension. When these particles of liquid in their forward motion follow, the steps can be carried out in accordance with the steps shown in FIG. 1 embodiment shown be. If the particles tend to settle under certain operating conditions, used preferably stages as shown in FIG. 4 are shown. These levels are different from the in Fig. 1 shown only by the funnel shape 10 of the middle pipe socket for the connection between two successive stages.

In the case of very viscous fluids, the reactor can also be provided with an auxiliary stirring system 11 as shown in FIG. 5 is shown stirring in the fluid above the tube bundle at each stage.

The dimensions of the reactor according to the invention can be used for reactions under atmospheric pressure as well as for pressure reactions. Its application in process engineering is very versatile, it is suitable, for example, for the execution of oxidations, reductions, esterifications, for hydrolysis and polycondensation.

Claims (3)

Patent claims: 1. Reactor for the continuous implementation of reactions between gases and liquids or between liquids where vapor escapes, consisting of a column with a Series of superimposed reaction spaces separated from one another by floors, whereby every floor material passage openings and every reaction space means for heat exchange having, characterized in that the devices for heat exchange in each case the middle area of each reaction space of the column with the formation of parallel Fill in tube bundles aligned to the longitudinal axis of the column, each consisting of one in the central Area arranged pipe (4) with a larger diameter and concentrically in the outer area arranged pipes (5) of smaller diameter, each bottom (1) in its central Area a downwardly protruding pipe socket (2) for liquid reactants and in its outer area coaxially to the outer tubes (5) in each of the two associated reaction spaces has protruding pipe socket (3) for the passage of gas. 2. Reactor according to claim 1, characterized in that the in the central region of the bottom arranged and downwardly protruding pipe socket is each funnel-shaped (10). 3. Reactor according to claim 1, characterized in that in the region of each reaction space A stirrer (11) is arranged in each case above the heat exchange devices. 1 sheet of drawings COPY