DEP0048192DA - Process and device for processing carbonization gases - Google Patents

Description

The invention relates to the processing of carbonization gases, in particular from hard coal, and aims to carry out the precipitation and separation of the condensable, volatile constituents contained therein in a more economical way than before.

Up until now, the carbonization gases and vapors have generally been worked up in such a way that the total amount of tar from the carbonization gases was precipitated, fed to the tar distillation as a whole and, if necessary, divided into individual fractions. This process requires considerable heat, labor, and time, as well as extensive distillation equipment. In addition, the yield of more volatile tar constituents is reduced as a result of the longer heating time in the distillation.

A much more economical work-up of the carbonization gases is achieved by, according to the invention, from the carbonization gases leaving the carbonization furnace - if necessary after prior reheating - at a temperature of above about 150 °, preferably 180 °, the less volatile, condensable constituents are separated out by electrostatic separation and these and the residual smoldering gases containing the more volatile, condensable constituents are further treated separately.

It is known to treat lignite sulphurous gases a little above the dew point in an electrostatic tar separator in order to keep the mass of the tar anhydrous, since otherwise a separation of the water from the tar, whose spec. Weight close to 1 is very difficult. This process has also already been applied to coal smoldering gases. In contrast, the invention does not pursue the purpose of separating the main amount of tar from water, but rather to obtain the largest possible proportions of the more volatile, condensable constituents without precipitation of the tar and without distillation. This is achieved in that the electrostatic separation is not operated as before, a little above the dew point, but considerably higher, namely at 150-200 ° and higher.

When carrying out the process, the precipitate from the electrostatic tar separator is fed to a distillation, while the more volatile, condensable components are separated off by cooling.

The non-volatile, condensable constituents separated in the electrostatic separation are distilled together with the asphalt-like components and the initial and power condensates and the distillate is separated or obtained together with the carbonization gas leaving the electrostatic separation by cooling, the more volatile dephenolated condensates containing condensable constituents.

It is readily apparent that this process is of particular thermal economic advantage because the reheating required for distillation is no longer necessary for a considerable part of the ingredients and the less volatile constituents are separated out directly in the smoldering heat. Substantial parts of the more volatile ingredients are obtained in this way without tar distillation in a form suitable for further processing, in particular by treatment with dilute sodium hydroxide solution for the purpose of obtaining the acidic constituents (phenols), and the distillation device is considerably relieved.

In the drawing, an embodiment of a system for performing the method according to the invention is shown.

The carbonization gases leaving the smoldering furnace 1 are fed to an electrostatic separator 5 via the template 2 through a line 3 via an intermediate heater 4, which is kept at a temperature above 150 °, preferably 180 °. In order to utilize the heat content of the carbonization gas, the gas suction line 3, like the electrostatic separator 5, is thermally insulated. The hot precipitate condensate accumulating in the separator is fed through a line 6 to an intermediate container 7 and from there by means of a line 8 to the distillation 9.

The condensate from the receiver 2 and the suction line 3 is conveyed through a line 10 via a collecting container 11 and a line 12, a drainage system 13 and from there, after the water has been separated off, likewise fed to the distillation system 9 via a line 14.

The hot gases leaving the electrostatic precipitator 5 through the line 15 reach a cooler 16 and exit this at the top through a line 17 after the more volatile, condensable constituents and part of the water content have been precipitated. The condensate passes through a line 18 into a drainage device 19 and from there through a line 22 into a collecting line 20, where it is combined with the distillate coming from the distillation system 9 and precipitated in a cooler 21 and fed to a dephenolation system 23. It is of course also possible to keep the condensate from the distillation plant 9 on the one hand and the condensate from the cooler 16 on the other hand separate and further process them separately. At a temperature of 150-200 ° and above in the electrostatic separation system 5, depending on the level of the temperature, 25-40% and more of the total constituents of the carbonization gas are obtained in the form of carbonization oil in a directly processable form without distillation.

Claims (7)

1. A method for processing carbonization gases, in particular from hard coal, characterized in that the less volatile, condensable components from the carbonization gases and vapors leaving the carbonization furnace, optionally after prior reheating at a temperature of above 150 °, preferably 180 °, by means of an electrostatic Separated separators and these and the more volatile, condensable constituents containing residual carbon dioxide are treated separately. 2. The method according to claim 1, characterized in that the precipitate of the electrostatic precipitator is fed to the distillation, while the remaining volatile, condensable components are obtained from the carbonization gases by cooling. 3. The method according to claim 2, characterized in that the less volatile, condensable constituents separated in the electrostatic separation are distilled together with the asphalt-like components and the initial and condensate condensates and the distillate is separated or together with the by cooling from which the electrostatic separation leaving the carbonization gas obtained, the more volatile constituents containing condensate are dephenolated. 4. Device for carrying out the method according to one of claims 1 to 3, characterized by an electrostatic precipitator (5), the drain (6) of which is connected directly to the template (2) of the smoldering furnace, set up for working at temperatures above 150 ° is connected to a distillation device (9) and the gas outlet of which is connected to a condensation space (16). 5. Device according to claim 4, characterized in that the connecting line (3) between the smoldering furnace and the electrostatic separator (5) is thermally insulated and, if necessary, a gas heater (4) is switched into it. 6. Device according to claim 4 or 5, characterized in that the connecting line (3) between the smoldering furnace and separator has a condensate drain (10) for the template (2) and the line which is connected directly to the distillation device. 7. Device according to one of claims 4 to 6, characterized in that the outlet line passed through a cooler (21) connects the distillation device (9) with the discharge of the condensation chamber (16) and is guided together with this to the dephenolation system (23) .