DE378292C - Method and device for the distillation of tar and oils - Google Patents

Description

Method and device for the distillation of tar and oils. 1-> egg The usual methods of tar distiffiation, the tar is either in large, up to =, 5 oC, o kg containing bubbles distilled or the tar is in the passage heated by a heating coil under pressure so high that Lei emerges from the same the distillation can take place by means of the absorbed heat.

The disadvantages of using large bubbles are that they are intermittent Operation, in particular for the heat management of the fire hazard, the heating of the Bubbles essentially at the bottom, the difficult drainage, the foaming, the Decomposition of the vapors that are formed, the costly setup and necessity careful monitoring. The uninterrupted processes require high heating drs all tar and allow the separation of the high and low boiling components only through appropriate cooling. The excretion of coal and the extraction of pitch offers difficulties in doing so.

In this process, a number of @Injection bubbles " necessary, for each fraction a special, and thus an extensive monitoring and service work. A changeover to other operating conditions is impossible.

The invention brings the progress that is conceivable with the simplest apparatus and simplest and safest mode of operation and least An uninterrupted fractional distillation takes place in which the different safely separated fractions at different points in the apparatus can be withdrawn and the pitch can be easily removed, the whole operation goes automatically in front of you. In addition, the apparatus is very easy to climb and for the various To convert operational needs.

The invention consists in the transmission and adaptation of the system the evaporation of liquids, in which these when trickling down in a Column are gradually heated and evaporated. The inventor has found that this process for tar and similar liquids, especially crude oils, can be designed so that the fractions at different heights of the column separately driven off and derived and that can be done with a minimum of effort allow technically perfect results to be achieved in terms of apparatus and operating costs.

It has also been proposed (patent 11592z) to use tar in column apparatus to distill, but without fractionation. There are several options for fractionation Devices have been proposed, in particular from pillars with intermediate floors individual departments and closures of the same against each other (Patent 1,; 5r3.1).

The new method does not generate one at one point Vapor mixture fractionation by using different cooling and condensation temperatures achieved, but by the fact that the liquid trickling down in the column on different steps that are closed off from one another, different ascending downwards Exposed to temperatures and only expelled the vapors corresponding to these temperatures will.

So there must be a heater that goes up Falling temperatures are created, as is most easily achieved by rising from the bottom up Fire gases are to be achieved, and a gas seal between the individual departments, but which itself has to let the liquid flow downwards. So it will the easiest way to use the liquid itself as a liquid seal. Simultaneously the liquid must be distributed in the individual compartments in such a way that it is heated the temperature of the department is assured, which is easiest by trickling down the liquid is reached in a thin layer on the column wall, namely if the column wall is heated from the outside by fire gases in the specified manner.

The simplest device for carrying out the procedure is an iron, Cylinder built into a tower with spirally rising puffs of fire, on whose the upper edge of the liquid flows in and its individual compartments through liquid closures are separated from each other, which lead the overflowing liquid back to the wall or let some of it drain off in fine drops. Every department so formed is provided with a gas exhaust pipe.

The accompanying drawing gives a longitudinal section and a cross-section this still.

The tar, suitably preheated, is pressed by a pump, air pressure or steam pressure, through the pipe a into the closed container c provided with overflow pipe b, which is let into the tip of the iron cylinder d. The cylinder d is installed in a tower f and surrounded by the trains g for the heating gases. The heating gases enter the lowermost annular train g on the side of a partition 7a, encircle the cylinder d, emerge on the other side of the partition and get into the next higher train g.

The tar emerges from holes -cl of the vessel c and trickles down on it Cylinder d down into the first division dl. The warming is regulated here that volatile constituents are driven off at a temperature of about 16o'C and discharged through the pipe k protruding into the interior of the cylinder d by suction can be. The temperature can be read on a thermometer ml and then the heating and the size of the tar feed can be measured.

The division dl is closed at the bottom by a liquid seal, which consists of the built-in sheet metal truncated cone p and the cap q placed over it. The tar freed from the first fraction collects in the annular space between the truncated cone p and the cylinder wall d and runs through the ring of gaps p1 into the next lower division d3. The passage of the gas is prevented by the cap q, which is immersed in the liquid tar and which also has a ring of gaps q1 on its lower edge for the tar to pass through. An exhaust pipe k = with a thermometer »a2 takes up the second fraction of about 230 ° C which is produced here.

The same is repeated in the lower compartments d3 and d4 with the flue pipes k3 and k4 and thermometers m3 and »a4 for the fractions of 300 ' C and 36o' C.

The leftover pitch runs out of department d4 into the room d5 below the lowest heating flue g and can here through the pipe k5 with thermometer m5 to be drained.

Experience has shown that the temperature in the column is slightly by regulating the temperature of the gases entering below can that the desired temperatures occur in the individual departments and the hot gases still emerge at a considerable temperature above, but below an exploitation of the heat, which has a much lower heat requirement than that of the means known apparatus. Instead of tar, crude oil and similar liquids can also be used are processed.

Claims (3)

PATENT CLAIMS i. Process for the distillation of tar and the like, characterized in that the tar is applied to the upper end of a cylinder heated from the outside in countercurrent flow, gradually heats up as it trickles down the cylinder wall, and in different sections of the cylinder arranged one above the other the tar is different fractions, which are sucked out of the individual departments, while the remaining pitch flows out of the lowest department. 2. Apparatus for carrying out the method according to claim i, characterized by Arrangement of a metal cylinder in a tower with the trains surrounding the cylinder, in which hot gases rise circling the cylinder. 3. Special embodiment of the metal cylinder according to claim i, characterized by the arrangement of different Divisions in such a way that the passage of the tar from one to the other a liquid seal allows the distilling gases to pass through but is prevented. : 4. A special execution of the separation of the different Compartments according to claim 3, characterized in that on the inner cylinder wall a gutter with overflow for the tar flowing down is attached, in which a the inside of the cylinder is immersed in the cap.