SE123138C1 - - Google Patents

Description

CLASS 5 a: 41 PROVIDED ON SEPTEMBER 9, 1948 PATENT PERIOD. 30 JAN. 1945 PUBLISHED IT. NOVEMBER 9, 1948 In addition to a drawing.

SVENSKA SKIFFEROLJEAKTIEBOLAGET, OREBRO. sat during gasification of oil-bearing slate rock in situ during the supply of various channels taken up in the slate rock. tippfianare: F. Ljungstrom.

The invention refers to a salt all producing shale oil, based on heating of the shale rock without prior shale mining, in which case the oil-producing gases produced by the heating are deposited from the hanger through ducts arranged therein. From the gases clarpa separates such parts of the same, which constitute the shale oil, during cooling by condensation.

When a slate rock is heated, the degassing of existing gas-forming substances takes place in the removal of a certain amount of material, which thus exits the rock in gaseous form in a similar way as e.g. in the case of degassing of coal or wood, and in all these cases a body of one or less pounds of the original material remains. The remaining material, in that it consists of coke or charcoal, due to its porous structure is extremely large for areas accessible to the gas. It has now been found that even the shale coke, i.e. in this case the degassed shale rock, has a pore structure with very large surfaces, accessible to gases. At the same time, the ski coke, in contrast to the ordinary coke or trachol, has a very strong ash content, i.e. residues of non-combustible constituents and especially for Swedish conditions amount to about 70% of the original slate weight. The slate coke contains i.a. a. e.g. various iron experiences and a lot of other constituents, which in contact with different gases were baited as catalysts to influence reactions in the gases. During the continuous production of shale rock, very large volumes of heated and degassed shale rock are formed during continuous degassing of shale rock, consisting mainly of shale coke, which remains undisturbed in its various layers, but which through the degassing has been transformed into a single pore inassable for gases in all directions. Darest salunda far each in3 oil agar about 15 rock mass, formed e.g. during a year suffering in the production of 20,000 m of shale oil a porous shale mountain of 300,000 in '. During the actual gassing procedure of the shale oil, a slowly advancing heat front is arranged in the slate rock, where both means for the heating (electric heating elements) and drainage channels for the gas diversion are gradually put into operation.

The invention intends to use the large porous shale coke mass thus formed as a catalyst for initiating certain desired chemical reactions, with the intention of producing various substances with the participation of the catalyst in question. In this case, the said gas channels are used, after they have ceased to serve as a drain for the shale oil gases, Liven receives a supply of gases to the shale rock. At the same time, other such channels can be used for sewage of synthetic products produced Mom slate rock with the participation of the catalyst formed by the shale coke. Some channels form inlets to the shale coke and other channels drain from it, whereby gases which are lowered under pressure into the rock on a shelter can be removed from it in another place. Gases come into contact with the surfaces of the catalyst and are actuated by the same salt, which is conditioned by the present chemical and physical conditions.

The invention will be described in more detail below with reference to the accompanying drawing as an example of the embodiment of the set, in which the further invention may be characterized by the invention. Fig. 1% Is but or less schematically a shale mountain, designed for the production of shale oil, seen in vertical section.

Fig. 2 shows a diagram indicating the temperature distribution Mom slate rock.

In the drawing, 10 denotes a natural heating element, which are arranged at regular intervals in the slate rock 12, on which a layer of limestone 14 is superimposed, possibly a ground layer 16. A number of exhaust ducts 18 stand in connection with through lime and slate drilled gas drains 20. The heating elements 10 and the exhaust ducts 18 are simultaneously arranged in rows one after the other at an angle to the plane of the drawing. The gas drains 20 belonging to such a row iiro over connecting pipes 21 and shut-off resp. control valves 22, 23 connected to a collecting duct 24. A larger collecting duct 25 for a plurality of collecting ducts 24 in turn combines these with a condenser 26 and a washing tower 27, the shale oil gases on the edge of salt are cooled and as far as possible freed of condensable oil constituents. The capacitor 26, which can also be constituted by resp. include equipment for other chemical treatment of shale oil gases e.g. separation of sulfur or other by-products therein, is connected through a line 28 to a collection container 30 for the oil. In this container also opens a line 32 from the water tower 27. From a branch line 34 some of the non-condensed gases can be discharged through a line 36, in which a yentil 38 is inserted, for use as a fuel or for other purposes. Another part of the gases flows through a compressor device 40.

In a section of the slate rock bounded by an angle steering wheel towards the drawing plane of planes through lines 42, 44, the pyrolysis, i.e. a new formation of shale gases during heat supply, is assumed to be completed. Heat supply to the elements 10 has thus been interrupted. In the stable, a section of the slate rock is currently being extracted, bounded by lines 44-46. The wash carriage is predominantly spaced apart in the direction of the arrows 48. The line 50 in Fig. 2 represents the temperature distribution in the hot sections. At line 44, the temperature may have reached a yard, between 3400 ° C, preferably about 380 ° C. The temperature drops through the process according to the invention towards line 42.

While the ducts 20 in section 44-46 serve as drains for the shale gases extracted in this section, at least one row of such ducts, which are located at the trailing edge of section 42-44, seen in the direction of the heating path according to the arrows 48, and which in the drawing are designated 52, connected to the pressure side of the compressor 40 via a collection duct 54. In the gas ducts 52, the gases coming from the frail line 34 are thus caused to re-flow to the already degassed shale rock within the area of Indian lines 42 and 44. a collecting duct 58 from the gas duct 60 within this area, so that after suitable treatment by condensation or washing or other processes, resp. redirected to line 34. Possibly the channels 60 may be connected to the collection line 24. The rest of the gases may during continued flow within the slate rock porOsa deposits in the direction of the arrows 48 come into contact with slate rock within section 44--46, day warning ay slate mountain pagfir and dar thus shale gases during pyrolysis are diverted through the gas channels 20. By causing a sufficiently high pressure rise of the gases after the compressor 40, these can thus be caused to flow in a circuit with tvS different branches, partly a circuit connected to the passages 56, 34 sand section 42-44 in the shale mountain and on the other hand a circuit comprising the passages 18, 34 and ram sections 42-44 and 44-46 within the slate rock. Such gases which are genuinely cooled, condensed and washed are freed from the oil are thus brought according to the invention to flow through the shale rock, where they hi. a. be able to contribute to a more lively transport of oil gases from the shale rock to the condenser plant through the coil can, which such gases will perform. In addition to this flushing action, however, according to the invention another action is also meant. In all oil production with degassing directly in the slate rock, the Eivertryek always arises, which lines up in the rock during the gasification, some loss is lost through gas coating on the rock up to the ground surface. Spriekor are found and used within the rock and the superimposed limestone mountain Sr itself is not completely tiitt. A small part of the produced oil gases will therefore gradually varnish by varnishing in spray cores in the ground above the slate rock. According to the invention, already degassed slate rock is filled with the aid of a compressor with a wiser when the oil has already been diluted. The leakage which still arises in its salt will consist of leaching gases which do not contain any oil. As a result, according to the invention, the advantage is gained that oil losses through Ifickage in the ground surface are reduced.

In the case of oil extraction from shale, it can be assumed that depending on the temperatures and pressures at which the pyrolysis proceeds, as well as depending on the rate at which the heating of the shale is carried out, the pyrolysis is introduced under conditions regulated by the physical and chemical conditions. in a quantitative balance relationship to each other. Thus, for example, it can be assumed that the pyrolysis gas formed consists of hydrogen, a certain part of it consists of inethane and other slaked hydrocarbons, so that eventually the oil-forming hydrocarbons, due to their greater inolecular weight, will give up. to a lower part of the total gas volume.

The process of pyrolysis itself is of such a complex nature that it cannot at present be satisfactorily clarified, but the practical result indicates that such a certain proportion between the various colloids is always present. The gas re-introduced through line 34 to the slate rock is, as shown above, proportionately richer in Hite and lighter in hydrocarbons than in the original pyrolysis gas from which the heavier hydrocarbons were extracted. In the presence of the large porous mass of the shale rock as a contact substance and where pyrolysis slowly picks up in very large volumes, according to the invention the excess of hydrogen gas and lighter hydrocarbons in the reclaimed gas will affect the pyrolysis in the direction that a balance is restored to the originally recovered the composition of the pyrolysis gas. This condition can almost be likened to a hydrogenation, but according to the invention the very high pressures under which such hydrogenation is usually carried out are replaced, in this case with an enormous contact surface in the catalyst, which makes it possible for Mom to achieve a reasonable to a balanced time. Thralling between the different reactions in the pyrolysis. Thereby, more carbon binds to the water supplied by the re-introduction, whereby carbon remaining in the coke is reduced to form a quantitative increase in the oil-forming gases.

According to the invention, the gases from which the oil is extracted first pass through a porous rock mass, where oil stripping has already been completed. During this, said gases are preheated, after they have been cooled during the passage through the condenser and the washing tower to a low temperature, which in practice rises to about 0 ° or lower. The already degassed shale rock and the waste heat left in this hot rock after the pyrolysis are thus partly used for preheating of the circulating gas involved in the pyrolysis. Since such a gas' heat content Or is relatively low, according to the invention the quantity of gas which is circulated depending on the conditions can be adjusted so that its volume amounts to one h several times the volume of the gas newly formed during the pyrolysis. This facilitates the reaction process indicated above in such a salty way that a balancing Mom the various reaction jokes need to be achieved due to the large excess of lighter hydrocarbons and water that are available during the pyrolysis. Due to this more abundant gas circulation, the condition also arises that such hydrocarbons, which live in the vicinity of the gasification, can be discharged from the slate rock with the aid of the more abundant gas circulation. The heaviest hydrocarbons, which remain and are coked in the rock without circulating gas, should therefore, with the aid of gas circulation, be brought to follow the general gas flow in whole or in part. Thus, according to the invention, by introducing an circulating gas Mom already created shale, new possibilities are created to obtain a richer production of the liquid hydrocarbons coveted by the pyrolysis. Finally, it is conceivable that the large rock body of hot shale coke, through which the circulating gas flows its vague to the pyrolysis region of the shale rock, ph b round of its enormous dimensions and associated catalyst action directly in some way allows a hydration of coke butchered coke, which remains in the same, thereby reducing the residual loss in the form of coke.

Instead of the pyrolysis gases as above, other gases, e.g. generator gases come into question for the production of various desired chemical reactions with the participation of the porous hot shale.

Claims (5)

Patent claim: 1. sat during gasification of oil-bearing slate rock in situ while supplying heat through channels taken up in the slate rock, characterized by the fact that after a slate section has been degassed by pyrolysis and become porous, gases are introduced into this section, while it is otherwise hot, through others in the slate rock occupied ducts to the heat supply ducts and that these gases are of such a nature that they are subjected to chemical reactions without combustion with the slate rock serving as. catalyst. 2. Claimed in claim 1, characterized in that at least a part of the gas formed during the pyrolysis is reintroduced into the shale portion, after it has been deprived of its oil-bearing constituents by condensation or quenching during cooling. 3. Set according to claim 1, characterized in that the introduced gas is caused by a compressor device to flow through a portion of already degassed hot slate erberg to be introduced from there into another rock portion, where oil recovery pagan 4. According to patent claims 1-3, it can be claimed that a part of the recycled gas is taken out of the Iran slate before that night in the zone in which degassing of slate ph-g, while another part is allowed to pass above this zone. 5. According to one of the preceding patent claims, characterized in that the gases are introduced into the shale rock through channels which during the pyrolysis served as gas drains. NWT: holm 1948. lima Boktr. IN'. A, Norstea & Siker 480080