DE417211C - Smoldering bituminous substances - Google Patents

Description

Smoldering of bituminous substances. The invention relates to a method for smoldering bituminous substances in standing or inclined surfaces heated from the outside Retorts with continuous operation with the introduction of a through the sensible heat of the Smoldering residues of heated gas or gas-vapor mixture in the retort and consists essentially in the following.

The sinking Schwelgut is divided into many small quantities in such a way that that the gas or gas-vapor mixture fed to it alternately from the retort wall is deflected into the good and directed back to the retort wall so that it the heat transfer from the retort wall to the carbonized food in, the carbonized food subdivision mediated corresponding sections of the route and protected the tar vapors against overheating leads away. This ensures a sustainable heat dissipation from the retort wall into the Inside the retort contents into it causes without this in the retort wall and in the parts of the retort contents adjacent to it an excess temperature in harmful and the height to be avoided. The purging gas-steam mixture loads, as already said, alternately with warmth and reproduce it immediately afterwards away. The excess temperature required for heat transfer is a function the ratio of a partial charge to that which passes through in the unit of time Purge gas / steam amount.

Since the latter amount upwards due to the consideration of economy the tar condensation is limited, the lower the excess temperatures get along, the smaller a partial load is. The cheapest, of course only theoretically possible case would be an infinitely large subdivision of the retort contents, in which so a partial charge would be infinitely small. In this case it would be a finite Purge gas volume completely the same temperature from the retort wall to the center of the retort and a steady, centrally directed «# NT, flow of heat from the wall to the Core of the retort contents to flow. The temperature of the contents of the retort would only in the direction of the retort axis in accordance with the temperature decrease of the retort the heating gas flow around the outside change, according to the temperature change in the retort wall. The degree of subdivision is determined by the operating conditions certainly.

Fig.r shows an embodiment of a device with which the Procedure should be carried out.

The melting takes place in the retorts a and b, in which there is an endless chain / or the like in the direction of the arrow, which is filled with bucket bottoms c along its entire length and over the guide rollers d and e - possibly with the involvement of a tension roller slowly moving. The bottom of the bucket has covered center openings which let gas through, but not the carbonized food. The chain with the bottom of the bucket moves up in retort a and down in retort b . At g, the retort a is filled with the smoldering material. This is taken from the bottom of the bucket, reaches the upper bypass box and from here into the retort h. This and the upper part of the retort a are surrounded by the heating gases, which come from the gas furnace h and pass through the heating chambers i, h, 1, nt, n one after the other, in order then to be fed to a dryer, in which the carbonized material is predried can.

At o and p, the purge gas is supplied. It can, if it is desirable that other, perhaps inferior gases are supplied above than below. In the Vorwelretorte a are introduced under the pressure of the outside air Gases kept separated from one another by the filling for the length from ä to p. The purging gas introduced at p enters the main smoldering cave b from above, the one introduced at o from below, after it had previously been attached to the hot bucket flask, on the hot coke in the coke bunker and on those falling out of the retort b Has heated coke. Some water is constantly being injected into the coke bunker g immediately converted into superheated steam with the flushing gas in the main smoldering retort h moves in.

After entering the main swell cake inul- ', da; Purge gas-Lampf-Gcmiscli, As shown in the partial picture in Fig. 2, in the first part of the bucket the hot retort wall brush, and then through the Schwelgut and the opening in the following bucket bottom to get into the next bucket section and so the heat from: also between the retort wall and to convey Schwelgut. The places where the retort wall from the purge gases 7etroiten will continue to shift with the turning of the bucket bottoms, so that the retort wall is completely evenly depleted of the purge gases at all points is hit.

The supply of heat from the retort wall via the purge gas-steam mixture zum Schwel- "u11 can be regulated by changing the purge gas, steam, volume, with which the entire smoldering process is regulated.

At r and s the purging gases are, those in the smoldering retorts the smoldering gases and the tar fumes have been sucked up. After separating the tar and light oil vapors in a condensation plant as well as gases that are specially to be extracted in suitable Facilities, part of the residual gas starts the cycle again as a purge gas.

In Fig.3 there is a different formation of the inside of the smoldering retort arranged bucket bottoms c. These are inclined on the pull chain f in Arrangement befes: ig t and cut out alternately on the circumference, so that the purge gas-steam mixture must zigzag through the Schwelgut, as the arrows show.

In order to further reduce the heat loss, in particular the Radiation losses, and to increase the performance, several pairs of thunder can be located side by side and opposite each other to form a furnace. It can be achieve that the hottest parts of the oven are enclosed by the cooler ones will.

Claims (1)

L'ATH.VT-ANsrRITCi-z: i. Process for smoldering bituminous substances in externally heated standing or inclined retorts with continuous operation Introduction of a heated by the sensible heat of the smoldering residue: n gas or Gas-vapor mixture in the retort, characterized in that the descending Schwelgut is subdivided into many small quantities in such a way that what is directed towards it Gas or gas-vapor mixture alternately deflected from the retort wall into the material and the retort wall is directed back so that there is the heat transfer from the Retort wall to the Schwelgut in the corresponding path sections in the Schwelgut subdivision mediates and removes the tar vapors protected against overheating. a. Facility for carrying out the method according to claim i with two or more to one System combined standing or inclined retorts and continuous feeding the smoldering hat with the help of an endless pulling organ, characterized in that the smoldering food abandoned in the pre-swelling retorts when transferred to the main swelling retorts rearranged and attached to the endless traction organ on its smoldering path The bottom of the bucket is divided into many partial or bucket loads, with the re: ort walls the bucket walls form, and the bucket bottoms form a purge gas that sweeps through the retorts or purge gas-steam-Gcm: sch alternately against and from the retort walls after the retort core to or through this lead that also the purge gas through the ends of the smoldering retorts, which are open on both sides, into the latter and gradually the gas vent or vents is sucked in.