DE267944C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- Yes 267944 CLASS 26 «. GROUP

in Berlin.

in a generator.

Patented in the German Empire on January 28, 1913.

There are known methods according to which luminous and heating gas or hydrogen from oil, Tar or liquid hydrocarbons are generated by the fact that ζ. B. Oil from above the glowing coke filling of a generator that was temporarily blown hot and injected as a result, it is vaporized in this itself. The oil vapors are on their way through

- the glowing carbon layers like that

ίο decomposed that with separation of carbon a gas or hydrogen which can be used for lighting and heating purposes is obtained. It has also already been suggested to preheat the oil to be evaporated according to this method by the waste heat of the generator by opening the supply line for the oil to be embedded in the masonry of the generator.

These known methods suffer from several shortcomings. That from above on the The glowing coke filling of the generator, the sprayed oil is already decomposing for the most part in the upper carbon layers with deposition of oil coke and graphite-like Carbon, which is very difficult to burn. At the same time occurs through the evaporation of the oil in these layers a strong cooling of the glowing coke filling. a. The consequence of this is that the The wind permeability of the coke filling soon decreases considerably and the hot blowing takes longer of the generator is required to put the top layers of coke filling back in Bring embers and remove the deposited graphite. The longer hot blowing of the generator means that a strong burning of the lower layers of the coke filling caused and thereby a higher one Causes carbon consumption. Furthermore, since the long duration of the hot blowing Temperature in the lower part of the generator rises correspondingly higher, so tread lightly Melting on the inner wall in the lower part of the generator, the frequent repair work make necessary.

The deposition of the carbon deposited in the upper part of the generator in The form of oil coke and graphite often becomes so strong that the coke - ' Layers have to be pierced mechanically in order to ensure even blowing to restore the necessary wind permeability of the coke filling. With frequent repetition However, when the coke filling is broken open and poked, it experiences an extensive one Comminution, which also affects the wind permeability, so that in many cases for restoration A proper operation there is no other way out than to close the generator empty and fill fresh. However, this means a longer malfunction and one significant loss of fuel.

Apart from these operational ones

Deficiencies in the implementation of the known «procedure requires the introduction of the oil o. The like. That by means of a scatter nozzle directly on the glowing coke filling of the generator is sprayed, a relatively large empty space in the upper part of the generator, because the base of the nozzle's scattering cone is roughly the same as the cross-section of the Generator must correspond. There is one for this

ίο considerable height of the scattering cone required, which creates a large harmful space in the generator above the coke filling.

Since, furthermore, with the known \ ^ the The heat required for gasifying the oil or the like is withdrawn from the hot-blown generator filling is, as a result, the amount available for the decomposition of the oil vapors 0 Significantly reduced heat in the generator.

To experience the \ ⁷ forming the subject of the invention, these errors rectified. For this purpose, \ evaporation of üles o vird. Like. Of seiner- \ ^{/ T} ergasung and decomposition in the generator locally separated and carried out in a known manner within an opening located outside the generator evaporation chamber, which in some cases also to the preliminary decomposition of the gasifying agent can be used. This chamber consists, for example, of a low iron jacket lined with expensive bricks, the interior of which is filled with refractory latticework or coarse, refractory chunks. The gases released when the coke in the generator is hot-blown are passed through this refractory filling of the evaporation chamber. Towards the end of the bubble period, these exhaust gases contain not inconsiderable amounts of carbon oxide, which are burned by adding air in the evaporation chamber. The refractory filling in this chamber stores the amount of heat required for evaporation and, if necessary, decomposition of the oil to be gasified. After the wind pipe has been switched off, the oil is introduced into the evaporation chamber through several nozzles and evaporated here. The oil ^s vapors are then passed through the burning Koksfüllung of the generator and thereby decomposed such that a usable for lighting and heating purposes gas under deposition of carbon, or - is recovered hydrogen - with a corresponding line of the process. The passage of the oil vapors through the generator expediently takes place alternately in the direction from top to bottom and vice versa. This alternating introduction of the oil vapors has the advantage that the heat stored in the generator is used more evenly and the lower part of the generator, which is most stressed during hot blowing, is not brought to an excessive temperature.

Will the evaporation chamber - at the appropriate level of the temperature of its refractory Filling · - also used to pre-decompose the oil, so that which is separated out Carbon burned in the passage and burning of the generator's exhaust gases and used to heat the refractory Filling made usable.

About the evaporation of the oil and the combustion of any deposited carbon To facilitate in the evaporation chamber, the filling located in this is useful layered in such a way that their permeability increases from bottom to top, and consequently " the evaporation of the oil in the deeper, hotter layers of the refractory filling takes place.

The device used to carry out the procedure is shown in the drawing in an embodiment shown in vertical section.

The device consists of the generator i, in the upper part of which by a Lid 2 closable loading opening is provided, and from the described below Evaporation chamber 12. Through the masonry of the generator are in the upper Part two side channels 3 and 4 and in the lower part two side channels 5 and 6 passed through. The channels 3 and 4 open at or near the surface of the coke filling 7, while the channels 5 and 6 open below the grate 8 on which the filling 7 rests. The wind line 10 is connected to the channel 5 with a shut-off device 9, from which an upward line 11 to the evaporation chamber 12 leads. The upper part of the line 11 is switched on by a branch line 13 a shut-off device 14 is connected to channel 3. Below the branch line 13 a shut-off device 15 is switched on in line 11. Before the confluence of the line

11 in the wind line 10 lies in this one Shut-off element 16. On channel 4 in the upper part of the generator is switched on a shut-off device 17 is connected to a line 18, which opens into the line 19 serving to discharge the finished gases. the Line 19 is connected to a shut-off device 20 with the lower channel 6 of the Generator connected.

The chamber 12 is made of refractory bricks and is conveniently equipped with an iron one Coat 21 surrounded. Inside the chamber

12 is a refractory filling 22, which is expediently constructed so that the spaces between the in several layers

Stacked stones expand in the direction from below to above. On the one hand, this results in wind permeability increasing from bottom to top, on the other hand, the access of the oil or the like entering the chamber 12 from above lower hotter layers of the filling 22 facilitated. The oil is in the interior of the Chamber 12 'introduced through nozzles 23, the

ίο for example in the ceiling of the chamber and are connected to the supply lines 24. The one in the ceiling of the chamber 12 arranged central connecting piece 25 can be closed by a removable cover 26.

The operation of the device described takes place in the following way:

First, the shut-off devices 15, 17 and 20 as well as the cover 2 of the generator 1.

closed while the shut-off devices 16, 9,

14 and the cover 26 of the evaporation chamber 12 remain open. Now is through the line 10 wind introduced into the lower part of the generator 1 and thereby the The filling 7 of the generator previously brought to a fire in a suitable manner is blown hot. The exhaust gases escape through lines 3, 13 and 11 and strike through the Inside the chamber 12 by heating the refractory filling 22 and then Pull off through the open nozzle 25. Towards the end of the blowing period, the shut-off device

15 slightly opened so that through the wind line 10 and the line 11 the combustion the amount of air required for the carbon oxide-containing exhaust gases can pass into the chamber 12. After the end of the blowing period, the lid 26 of the chamber 12 and the shut-off devices 15, 16, 9 and 17 closed in case that the oil vapors formed in the chamber 12 to flow through the generator 1 in the direction from top to bottom. the In this case, oil vapors enter the coke filling 7 through the lines 11, 13, 3,

+5 cross this out and get through the previously opened slide 20 into line 19.

If, on the other hand, the oil vapors are to be introduced into the generator 1 from below, the shut-off devices 14, 16 and 20 are to be closed, while the shut-off devices 15, 9 and 17 are to be opened. In this case, the oil vapors pass through the lines 11, 10 and 5 into the lower part of the coke filling 7, pass through it from bottom to top and escape through the upper channel 4, the open shut-off element 17 and the line 18 into the line 19.

After the gassing period has ended, the various The shut-off elements of the generator 1 are again blown hot, with the cover 26 the chamber 12 is open.

Because the oil vapors to be decomposed, etc., alternate in the direction from above through the filling 7 of the generator upwards and downwards and from below upwards are, in addition to the advantages explained above, also achieved that in the The lower part of the generator 1 deposits a graphite layer on the inner wall, which protects this part of the generator against the harmful effects of high temperatures.

Claims (2)

Patent Claims:
ι. Procedure for the production of luminous and heating gas or hydrogen by decomposing the vapors of oil, Tar or liquid hydrocarbons in a generator, characterized that the gasification agent in a manner known per se outside the generator in an evaporation chamber connected to it is evaporated when the generator is hot-blown by the heat of the and is heated with the supply of air-burning gases. 2. Device for carrying out the method according to claim 1, characterized through an evaporation chamber, the refractory filling of which has an increasing permeability from bottom to top. 1 sheet of drawings.